WorldWideScience

Sample records for synchrocyclotrons

  1. Goodbye Synchro-Cyclotron

    International Nuclear Information System (INIS)

    Anon.

    1990-01-01

    On 17 December, after having seen many other physics machines come and go during its 33-year career, CERN's 600 MeV SynchroCyclotron (SC) is being shut down. Judged simply by its length (to say nothing of its quality), the research career of this machine testifies to the wisdom and imagination of the CERN pioneers who proposed it in the early 1950s

  2. The Synchrocyclotron (SC) in building 300

    CERN Multimedia

    Maximilien Brice

    2012-01-01

    The red magnet of CERN's first accelerator, the Synchrocyclotron (SC), has occupied a large part of Hall 300 since it was installed in the late 1950s. The remaining part of the 300-square-metre building has been used as a storage room since the accelerator was shut down in 1990. Now a public exhibition will breathe new life into the hall.

  3. <600> MeV synchro-cyclotron

    CERN Multimedia

    CERN PhotoLab

    1971-01-01

    One of the 14 pancakes of the new magnet coils for the 600 MeV synchro-cyclotron which were wound and coated with epoxy resin on the CERN site. These new coils will replace the present ones which have been in use for more than 14 years but are now showing signs of deteriorations.

  4. Digital blocks in Camac standard for synchrocyclotron investigations

    International Nuclear Information System (INIS)

    Zhuravlev, N.I.; Li Zu Ehk; Nguen Man' Shat; Petrov, A.G.

    1975-01-01

    Described are brief characteristics and block diagrams of the following 12 blocks in the CAMAC standard designed for experiments on a synchrocyclotron: output register, digital printout, frame controller, logic signal commutator, controlled delay, binary counters of 4 types, exposure-set counter, decimal counter with full indication and L signal grader

  5. π-meson chanel of the LIYF AS USSR synchrocyclotron

    International Nuclear Information System (INIS)

    Gordeev, V.A.; Gridnev, A.B.; Koptev, V.P.; Kruglov, S.P.; Kuz'min, L.A.; Lopatin, I.V.

    1976-01-01

    Design and characteristics are described of a π-meson channel of a synchrocyclotron intended for implementation of the program of studying pion-nucleon interaction for energies up to 700 Mev. The channel ensures focusing of up to 10 5 π-mesons with 490 Mev energy with a spread of pulses of Δ p/p=0.06. Beam divergence does not exceed 1 deg. The experimental data are compared with computation results

  6. Isocele I, the Orsay synchrocyclotron on-line separator

    International Nuclear Information System (INIS)

    Caruette, A.; Ferro, A.; Foucher, R.

    1976-01-01

    The main characteristics of the isotope separator Isocele 1 are described. This medium current separator was on line with the Orsay synchrocyclotron (155 MeV p, or 210 MeV 3 He) from March 1974 up to May 1975. Results obtained with different targets (Au, Bi, Er, Pt, Sn, Th) are summarized. They confirm the efficiency of medium current separators of this type [fr

  7. Trimming algorithm of frequency modulation for CIAE-230 MeV proton superconducting synchrocyclotron model cavity

    Science.gov (United States)

    Li, Pengzhan; Zhang, Tianjue; Ji, Bin; Hou, Shigang; Guo, Juanjuan; Yin, Meng; Xing, Jiansheng; Lv, Yinlong; Guan, Fengping; Lin, Jun

    2017-01-01

    A new project, the 230 MeV proton superconducting synchrocyclotron for cancer therapy, was proposed at CIAE in 2013. A model cavity is designed to verify the frequency modulation trimming algorithm featuring a half-wave structure and eight sets of rotating blades for 1 kHz frequency modulation. Based on the electromagnetic (EM) field distribution analysis of the model cavity, the variable capacitor works as a function of time and the frequency can be written in Maclaurin series. Curve fitting is applied for theoretical frequency and original simulation frequency. The second-order fitting excels at the approximation given its minimum variance. Constant equivalent inductance is considered as an important condition in the calculation. The equivalent parameters of theoretical frequency can be achieved through this conversion. Then the trimming formula for rotor blade outer radius is found by discretization in time domain. Simulation verification has been performed and the results show that the calculation radius with minus 0.012 m yields an acceptable result. The trimming amendment in the time range of 0.328-0.4 ms helps to reduce the frequency error to 0.69% in Simulation C with an increment of 0.075 mm/0.001 ms, which is half of the error in Simulation A (constant radius in 0.328-0.4 ms). The verification confirms the feasibility of the trimming algorithm for synchrocyclotron frequency modulation.

  8. Data on activation and the definitive dismantling of the 155 MeV synchrocyclotron at the IPN at Orsay

    International Nuclear Information System (INIS)

    Choquet, R.; Clapier, F.

    1977-01-01

    A description is given of the results of measurements made during the definitive dismantling of the Orsay 155 MeV synchrocyclotron: measurements of the activity of structural materials (steel, copper, aluminium) after two months cooling. The method employed for reducing to the maximum the hazards to the personnel carrying out the work is described [fr

  9. Biomedical program for the converted 200-MeV synchrocyclotron at the Gustaf Werner Institute

    International Nuclear Information System (INIS)

    Larsson, B.

    1985-01-01

    Between 1956 and 1977, the former synchrocyclotron in Uppsala was used for biological experiments and clinical tests with 185-MeV protons. Therapeutic irradiations have been performed since 1957 by cross-firing with pencil beams through small intracranial structures for the treatment of Parkinsonism and intractable pain and with the spread-out Bragg peak for the treatment of large malignant tumors. Radiological and radiophysical aspects of the use of charged-particle beams were studied in detail. The former accelerator is now being converted to a sector-focusing, frequency-modulated cyclotron, SFSC-200, to permit acceleration of protons up to 200 MeV and other light ions to corresponding energies. Production of spallation neutrons and radionuclides for biomedical uses is expected to start this year. Experiments with charged-particle beams will begin in 1986. This paper presents a discussion of accelerator developments for planned experimental and clinical programs

  10. Commercial accelerators: Compact superconducting synchrocyclotrons with magnetic field up to 10 T for proton and carbon therapy

    Science.gov (United States)

    Papash, A. I.; Karamysheva, G. A.; Onishchenko, L. M.

    2012-11-01

    Based on a brief review of accelerators widely used for proton-ion therapy and for curing patients over the last 20 years, the necessity and feasibility of creating compact superconducting synchrocyclotrons with a magnetic field value up to 10 T are outlined. The main component of modern commercial facilities for proton-ion therapy is an isochronous cyclotron with room-temperature or superconducting coils which accelerates protons to 250 MeV or a synchrophasotron with carbon-ion energy reaching 400 MeV/nucleon. Usually the ions are delivered from the accelerator to the medical-treatment room via transport lines, while irradiation is produced by means of a system that is comprised of pointing magnets, collimators, and energy degraders mounted on a rotating gantry. To greatly reduce the price of the facility (by an order of magnitude) and to facilitate the work of hospital personnel, the isocentric rotation of a compact superconducting synchrocyclotron around the patient is proposed. Estimates of the physical and technical parameters of the facility are given.

  11. Data on the activation and dismantling of the 155MeV synchrocyclotron of the Institute of Nuclear Physics at Orsay

    International Nuclear Information System (INIS)

    Choquet, R.; Clapier, F.

    1979-01-01

    After twenty years of operation, the dismantling of a 155 MeV proton Synchrocyclotron led to define working conditions and to examine the final destination of materials affected by radioactivation by direct or indirect ionizing radiation. The dismantling operation and the separation of radioactive material after consideration of activation analysis data and indirect measuring methods adopted are described. Arising from this experience suggestions are made, for if personnel dose limitation is attained, it appears that solutions must still be found to process important amounts of metals of rather small specific activity; it should be possible to handle the treatment of waste much more satisfactorily in terms of cost and ecology [fr

  12. Study of neutron hole states in 207206205Pb with the (3He,α) reaction at 110MeV. First tests in (d,t) reaction of the Orsay synchrocyclotron spectrometric line

    International Nuclear Information System (INIS)

    Guillot, J.

    1979-01-01

    Neutron hole states in the 207 Pb, 206 Pb, 205 Pb isotopes were studied up to 25 MeV excitation energy using the ( 3 He,α) reaction at 100MeV incident energy, with 100 keV energy resolution. Angular distributions for the low-lying levels and inner hole states have been analyzed with DWBA and spectroscopic factors extracted for 1 > 3 levels. Missing strengths for the first levels from 1i13/2 and 1h9/2 orbits are found in the bump located around 5MeV excitation energy. The fragmented bump observed around 8MeV excitation energy is attributed to 1h11/2 pick-up with 45% of the sum-rule limit. Finally, the structure extending up to 21 MeV excitation energy is attributed to 1g7/2+1g9/2 pick-up with 80% of the total strength. In 207 Pb, the four first isobaric analog states Tsub(>) = 45/2 are identifierd around 20MeV excitation energy. The second part of this work presents the first tests in (d,t) reaction at 108 MeV on 90 Zr and 208 Pb using the achromatic line of the Orsay synchrocyclotron [fr

  13. The CERN Synchro-Cyclotron Improvement Programme (SCIP) and its managerial problems

    CERN Document Server

    Lustig, H D

    1976-01-01

    This project proved that for large-scale projects comprising more than one thousand activities and involving the participation of several divisions and companies, the application of network planning techniques is essential, but that for some purposes the additional use of bar chart planning techniques is very helpful. Since the use of network planning is still not yet as widely spread as one would hope, special attention has to be paid to these questions before orders are placed and a close planning collaboration between manufacturer and client is required. For this the use of computer program for the evaluation of time-tables and for the supervision of information-flow can be of great help. (3 refs).

  14. On the possibility of accelerating multiply charged ions in the CERN Synchrocyclotron

    CERN Document Server

    Giannini, R

    1975-01-01

    Some problems relating to the possibility of accelerating light ions in the CERN SC are studied. Deuteron capture conditions and the optimum radio-frequency versus time curve are calculated. Internal beam currents of some micro-amperes seem obtainable when using the calutron source as for protons. The same calculations were repeated for N/sup 5+/ taking into account the charge exchange process in the vacuum. A transmission of between 5 and 10% has been calculated, giving some 10/sup 10/ particles per second with a PIG source.

  15. 29 September 2015 - Vice-President of the Government of Spain S. Sáenz de Santamaría in the ATLAS visitor centre, the Synchrocyclotron, the Data Centre visit point and the LHC magnet facility with CERN Director-General R. Heuer and Technology Department Head J.M. Jiménez.

    CERN Multimedia

    Bennett, Sophia Elizabeth

    2015-01-01

    Were also present from Spain: Sra. Carmen Vela, Secretaria de Estado de Investigación, Desarrollo e Innovación, Sr. D. Bernardo de Sicart Escoda Embajador de España en Berna, Sra. Da Ana Menéndez Pérez, Embajadora Representante Permanente de España ante Naciones Unidas y OOII con sede en Ginebra, Sra. Da María Pico Directora del Gabinete de la Vicepresidenta and Sr. D. Miguel Temboury Redondo Subsecretario de Economía y Competitividad. And from CERN: Dr Maria Alandes Pradillo, Information Technology Department, Dr Maria Barroso-Lopez Deputy Group Leader, IT-PES, Dr Frédérick Bordry, Director of Accelerators and Technology, Dr Borja Fernandez Adiego Engineering Department, Prof. Maria Jose Garcia Borge ISOLDE Collaboration Spokesperson, Dr Fabiola Gianotti Director-General elect 2016-2020, Mr Frédéric Hemmer Information Technology Department Head, Prof. Mario Martinez, Spanish Scientific Delegate to CERN Council Mr Guillermo Merino Fernandez, Technology Department Mr Lluis Miralles, General Infrast...

  16. Progress report, 1978

    International Nuclear Information System (INIS)

    During the calendar year 1978 upgrading of the synchrocyclotron was completed and proton, deuteron and alpha beams were extensively used. Research continued into far-unstable nuclei, complex nuclear reaction and nuclear fission mechanisms, and positron tomography. (LL)

  17. Accelerator operations

    International Nuclear Information System (INIS)

    Anon.

    1979-01-01

    Operations of the SuperHILAC, the Bevatron/Bevalac, and the 184-inch Synchrocyclotron during the period from October 1977 to September 1978 are discussed. These include ion source development, accelerator facilities, the Heavy Ion Spectrometer System, and Bevelac biomedical operations

  18. Musiclub

    CERN Multimedia

    Musiclub

    2016-01-01

    On January 28th, theremin virtuoso Dorit Chrysler came to visit CERN, and played one of her songs, "Avalanche", in the Synchrocyclotron hall. Helped by the media service, the MusiClub produced a short clip of the performance. "Dorit Chrysler with the filming team Ron Suykerbuyk, Django Manglunki and Jacques-Hervé Fichet"

  19. Transport of one SC coil through the village of Meyrin

    CERN Multimedia

    1956-01-01

    The energizing coils of the Synchro-cyclotron magnet were manufactured in Belgium before travelling to Basel in Switzerland by boat and continuing by road to Geneva. The first coil reached Geneva in December 1955, with the second following in early 1956. The coils were stored in a hangar at the Geneva airport before they were brought to CERN in May 1956.

  20. Nuclear Physics Division progress report for the period 1st April 1975 - 31 March 1976

    International Nuclear Information System (INIS)

    Gayther, D.B.; Ivanovich, M.; Sanders, L.G.

    1976-01-01

    The report is in sections entitled: nuclear data and technology for nuclear power; nuclear studies; other studies and applications (Synchrocyclotron Group, Mossbauer Effect Group, Ion-crystal Interactions Group, High Voltage Group, Hydrology and Coastal Sediment Group, Industrial Physics Group); accelerator operation, maintenance and development; reports and publications. (U.K.)

  1. Rotary capacitor

    CERN Multimedia

    1971-01-01

    The rotating wheel of the rotary capacitor representing the most critical part of the new radio-frequency system of the synchro-cyclotron. The three rows of teeth on the circumference of the wheel pass between four rows of stator blades with a minimum clearance of 1 mm at a velocity of 1700 rev/min.

  2. Nuclear physics division progress report for the period 1st January 1977 to 31st December 1977

    International Nuclear Information System (INIS)

    Ivanovich, M.; Syme, D.B.; Hartley, N.E.W.

    1978-06-01

    The report is in sections: nuclear data and technology for nuclear power; nuclear studies; other studies and applications (including sections dealing with the work of the following Groups: Synchrocyclotron, Moessbauer Effect, Ion-Crystal Interaction, High Voltages, Industrial Physics (nuclear techniques, radiation instruments, tracer techniques), Accelerator Operation Maintenance and Development). (U.K.)

  3. The Omicron Spectrometer

    CERN Document Server

    Allardyce, B W

    1976-01-01

    It is intended to build a spectrometer with a large solid angle and a large momentum acceptance at the reconstructed synchrocyclotron at CERN. This spectrometer will have an energy resolution of about 1 MeV for particles with momenta up to about 400 MeV/c.

  4. Nuclear Physics Division Progress Report for the period 1st April 1976 to 31 December 1976

    International Nuclear Information System (INIS)

    Ivanovich, M.; Sanders, L.G.; Syme, D.B.

    1977-05-01

    The main contents of the report are as follows: nuclear data and technology for nuclear power; nuclear studies; other studies and applications (Synchrocyclotron Group, Moessbauer Effect Group, Ion-Crystal Interactions Group, High Voltage Group, Hydrology and Coastal Sediment Group, Industrial Physics Group); accelerator operation, maintenance and development; reports, publications and conference papers. (U.K.)

  5. Accelerator and Fusion Research Division. Annual report, October 1978-September 1979

    International Nuclear Information System (INIS)

    1980-03-01

    Topics covered include: Super HILAC and Bevalac operations; high intensity uranium beams line item; advanced high charge state ion source; 184-inch synchrocyclotron; VENUS project; positron-electron project; high field superconducting accelerator magnets; beam cooling; accelerator theory; induction linac drivers; RF linacs and storage rings; theory; neutral beam systems development; experimental atomic physics; neutral beam plasma research; plasma theory; and the Tormac project

  6. Of mice and men

    CERN Multimedia

    1973-01-01

    At the end of March , sixty mice were irradiated at the synchro-cyclotron in the course of an experimental programme studying radiation effects on mice and plants (Vicia faba bean roots) being carried out by the CERN Health Physics Group.

  7. Muse at CERN

    CERN Multimedia

    CERN Bulletin

    2016-01-01

    On 19 July, the world-famous, English rock band, Muse, visited CERN before taking centre-stage at Nyon’s Paléo Festival. They toured some of CERN’s installations, including the Synchrocyclotron and the Microcosm exhibition, and also looked in on CMS and the Antimatter Factory.    

  8. Frank Blythe (1924-2010)

    CERN Multimedia

    2010-01-01

    Frank Blythe, one of the very first engineers engaged in the CERN adventure, passed away on October 22. Born and educated in Salford (England), after a time spent at Metropolitan-Vickers in Manchester, in January 1954 he joined the group at the Nuclear Physics Research Laboratory in Liverpool that was working on the first CERN accelerator, the Synchrocyclotron (SC). At that time CERN had not yet officially been constituted, yet had a well defined work programme, the design and construction work being carried out in various European laboratories. In Liverpool the work included the SC vacuum and cooling system, radiation shielding, experimental areas and beams. By the end of 1954, Frank reached the CERN premises in Geneva, and contributed significantly to the successful construction work of the Synchrocyclotron. He later became responsible for the drawing office and the mechanical workshop (Engineering Group) attached to the MSC Division, and also serving the NP/EP Division. He kept this position until ...

  9. arXiv Cyclotrons: Magnetic Design and Beam Dynamics

    CERN Document Server

    Zaremba, Simon

    Classical, isochronous, and synchro-cyclotrons are introduced. Transverse and longitudinal beam dynamics in these accelerators are covered. The problem of vertical focusing and iscochronism in compact isochronous cyclotrons is treated in some detail. Different methods for isochronization of the cyclotron magnetic field are discussed. The limits of the classical cyclotron are explained. Typical features of the synchro-cyclotron, such as the beam capture problem, stable phase motion, and the extraction problem are discussed. The main design goals for beam injection are explained and special problems related to a central region with an internal ion source are considered. The principle of a Penning ion gauge source is addressed. The issue of vertical focusing in the cyclotron centre is briefly discussed. Several examples of numerical simulations are given. Different methods of (axial) injection are briefly outlined. Different solutions for beam extraction are described. These include the internal target, extracti...

  10. Production cross sections and isomeric ratios for sup(110m)In/sup(110g)In formed in Cd (d,xn) reactions

    International Nuclear Information System (INIS)

    Herreros Usher, Oscar; Maceiras de Jefimowicz, Elena; De la Vega Vedoya, Mario; Jorge Nassiff, Sonia

    1980-01-01

    Excitation functions and isomeric cross sections ratios have been measured for the 110 Cd (d,2n) and 111 Cd (d,3n) reactions in which the isomeric pair sup(110m)In/sup(110g)In is produced. Activation method was employed and the irradiations were performed at the synchrocyclotron of the Comision Nacional de Energia Atomica, Argentina, with an incident energy of 27.MeV. (author) [es

  11. A search for effects on chemical isomerism in muonic X-ray spectra of propyl alcohol

    CERN Document Server

    Brandão d'Oliveira, A; Von Egidy, T

    1974-01-01

    The intensities of muonic X-ray transitions in n-propyl alcohol and isopropyl alcohol were measured. The experiment was performed at the muon channel of the 600 MeV synchrocyclotron at CERN. The spectra were evaluated by means of a standard computer program and by a technique to observe small differences between the propyl-alcohol spectra. No differences in the muonic spectra were observed within rather small experimental errors. (16 refs).

  12. Progress report, 1980

    International Nuclear Information System (INIS)

    1980-01-01

    The operation and development of facilities in the Foster Radiation Laboratory and the research carried out from November 1979 to October 1980 are summarized. The upgrading process for the synchrocyclotron is continuing. The main research activities are the studies of nuclear properties far from beta stability, complex nuclear reactions, the nuclear fission mechanism, and positron emission tomography. A mini-cyclotron is being installed at the Montreal Neurological Institute. Lists of personnel and publications are included

  13. Experiments at CERN in 1984

    International Nuclear Information System (INIS)

    1984-11-01

    This book is a compilation of the current experimental program at CERN. The experiments listed are being performed at one of the following machines: the Super Proton Synchrotron (SPS), the Proton Synchrotron (PS) and the Synchro-Cyclotron (SC). The Intersecting Storage Rings (ISR) have ceased functioning early this year. The four approved experiments to be done by means of the Large Electron Positron machine (LEP) are also listed. (orig./HSI)

  14. Production of high specific activity 123I for protein iodination for medical use

    International Nuclear Information System (INIS)

    Legoux, Y.; Cieur, M.; Crouzel, C.; Syrota, A.

    1985-01-01

    Iodine-123 is produced via xenon-133 by irradiation of a sodium iodide target with 108 MeV deuterons from the synchrocyclotron of IPN. The on-line production method is described. The specific activity of the iodine is determined by neutron activation analysis and by a radioimmunological method. The conditions labelling different proteins (insulin, angiotensin) are given and also the purification method to obtain a product ready for injection to patients. (author)

  15. Experiments at CERN in 1986

    International Nuclear Information System (INIS)

    1986-11-01

    This report is a compilation of the current experimental programme at CERN. The experiments listed are being performed at one of the following machines: The Super Proton Synchrotron, the Proton Synchrotron and the Synchro-Cyclotron. The four experiments planned for the Large Electron Positron machine are also listed. Each experiment is briefly described and a schematic layout of its apparatus is included, together with lists of participants and institutions. (orig./HSI)

  16. The SC gets ready for visitors

    CERN Multimedia

    Antonella Del Rosso

    2012-01-01

    Hall 300, which houses the Synchrocyclotron (SC), CERN’s first accelerator, is getting ready to host a brand-new exhibition. The site will be one of the stops on the new visit itineraries that will be inaugurated for the 2013 CERN Open Day.   The Synchrocyclotron through the years. Just as it did in the late 1950s, when the accelerator was first installed, the gigantic red structure of the Synchrocyclotron's magnet occupies a large part of the 300-square-metre hall. “We have completed the first phase of the project that will give the SC a new lease of life,” says Marco Silari, the project leader and a member of CERN’s Radiation Protection Group. “We have removed all the equipment that was not an integral part of the accelerator. The hall is now ready for the civil-engineering work that will precede the installation of the exhibition.” The SC was witness to a big part of the history of CERN. The accelerator produced ...

  17. New life for CERN's first accelerator

    CERN Multimedia

    Anaïs Schaeffer

    2011-01-01

    Building 300 right in the middle of the CERN site houses a special "antique": the Laboratory's very first accelerator. After several years in the wilderness following its decommissioning in 1990, the Synchrocyclotron is set to take on a new lease of life in the near future, this time as a visitor attraction.   The Synchrocyclotron as it was in 1975; it will be restored to this configuration for public viewing. The Synchrocyclotron (SC) began operation in 1957, two years before the PS was commissioned. Running at an energy of 600 MeV and producing beams of protons, neutrons, muons and pions, it helped to further research in the nuclear physics field for no fewer than 33 years, providing beams for various decay experiments as well as the muon capture experiment (*). Since the SC was decommissioned in 1990, three of its four buildings (160, 161 and 301) have been converted into offices for members of the ALICE collaboration, but the shielded hall housing the machine it...

  18. Progress report, 1975

    International Nuclear Information System (INIS)

    The properties of the exotic nuclides lying off the valley of beta stability are under study and new nuclides continue to be identified. A new ion source for the on-line mass spectrometer for isotope separation allows the investigation of neutron deficient and neutron rich nuclei. A superconducting beta ray spectrometer has been used to study nuclear mass in high energy nuclear beta decay. The Proton Synchrocyclotron is being upgraded to allow acceleration of particles like d, 3 He ++ , and 4 He ++ , to improve proton beam intensity, and to improve the cyclotron operating stability and vacuum system. (E.C.B.)

  19. Experimental verification of the relativistic fine-structure term of the Klein-Gordon equation in pionic titanium atoms

    International Nuclear Information System (INIS)

    Delker, L.; Dugan, G.; Wu, C.S.; Lu, D.C.; Caffrey, A.J.; Cheng, Y.T.; Lee, Y.K.

    1979-01-01

    A newly designed, large-aperture and high-resolution bent-crystal spectrometer has been used to observe high-intensity sources of pionic x rays. The pionic x-ray source was a target of natural titanium which was placed adjacent to a copper pion-production target in the external beam of the Nevis synchrocyclotron. The energy difference between the 5g → 4f and 5f → 4d transitions in pionic titanium was measured to be 87.6 +- 1.8 eV. Comparison with the prediction of the Klein-Gordon equation is made

  20. Annual report 1976

    International Nuclear Information System (INIS)

    Lindh, U.; Sundberg, O.

    1977-01-01

    The Gustaf Werner Institute (GWI) annual report for the year 1976 presents in a condensed form the scientific activities in the disciplines High Energy Physics and Physical Biology at Uppsala University. The activities in High Energy Physics fall into three domains: Research with the local accelerator, participation in collaborations at international centers and work on the rebuilding of the Uppsala synchrocyclotron. A major subject of research in Physical Biology is control of growth and differentiation, as reflected in the kinetics of biochemical reactions or in the behaviour of healthy or malignant cells at various levels of organization. (Auth.)

  1. Experiments at CERN in 1979

    International Nuclear Information System (INIS)

    Anon.

    1979-08-01

    The 1979 catalogue of approved experiments at CERN has been compiled as a guide to the status of the experimental research programme at the 400 GeV Proton Synchrotron (SPS), the Intersecting Storage Rings (ISR), the 25 GeV Proton Synchrotron (PS), and the Synchrocyclotron (SC). The schematic layouts of beams and experiments at the various machines are given in the beginning of the report and are followed by descriptive material on the experiments. In general, a short summary of each of the approved experiments is given, with a description of the physics purpose, the apparatus employed, a list of the participants and the name of the collaboration. (Auth.)

  2. Charged particle cross-section data and their systematization

    International Nuclear Information System (INIS)

    Nassif, S.

    1982-07-01

    The reaction cross-sections and the thick target yields of (α,αxn) and (α,xn), induced by the alpha particles from the Buenos Aires 60 inch synchrocyclotron for Cu, Y, Zr, Rh, Te, Ta, Au and Pb were obtained. The ''stocked foil'' method was applied. The ''nuclear spin density'' parameter was determined using a phenomenological approximation from the cross section data for 181 Ta(α,n) reaction producing isomeric pairs of sup(184m)Re and sup(184g)Re. The systematic behaviour of the present result and the results of other authors were demonstrated

  3. Progress report, 1979

    International Nuclear Information System (INIS)

    During 1979 the synchrocyclotron 3 He and alpha beam intensities have been improved and a stochastic beam stretcher for alpha and deuteron beams has been installed. The PDP-11 memory has been enlarged and a terminal for the PDP-15 installed at the cyclotron control desk. The angular correlation facility for on-line γ-spectrographic studies has been completed, and a microprocessor-controlled tape transport system integrated into the helium jet transport facilities. The main research interests continued to be the properties of nuclei far from beta stability, complex nuclear reactions, the fission mechanism, and positron tomography. (LL)

  4. p- and n-induced U-fission tracks as possible error sources in the fission track dating of extraterrestric samples

    International Nuclear Information System (INIS)

    Thiel, K.

    1975-01-01

    Using the fission track dating method by means of uranium fission tracks in meteorites and moon samples (according to the successful Apollo and Luna missions), special problems arise, as the samples frequently have a very great age and were subjected to the inmediate effect of primary cosmic radiation. To determine the share of induced fission tracks, an extended 'cosmic ray' simulation experiment was carried out on the p-synchrocyclotron in CERN, Geneva; the performance and results of the test with the proton flux and U fission track measurements are dealt with in detail. (HK/LH) [de

  5. Angular distributions and anisotropy of fission fragments from neutron-induced fission in intermediate energy range 1–200 MeV

    OpenAIRE

    Vorobyev Alexander S.; Gagarski Alexei M.; Shcherbakov Oleg A.; Vaishnene Larisa A.; Barabanov Alexei L.

    2017-01-01

    Angular distributions of fission fragments from the neutron-induced fission of 232Th, 233U, 235U, 238U and 209Bi have been measured in the energy range 1–200 MeV at the neutron TOF spectrometer GNEIS based on the spallation neutron source at 1 GeV proton synchrocyclotron of the PNPI (Gatchina, Russia). The multiwire proportional counters have been used as a position sensitive fission fragment detector. A description of the experimental equipment and measurement procedure is given. The anisotr...

  6. Measurement of neutron-induced fission cross-sections of Th232, U238, U233 and Np237 relative to U235 from 1 MeV to 200 MeV

    Energy Technology Data Exchange (ETDEWEB)

    Shcherbakov, O.A.; Laptev, A.B.; Petrov, G.A. [Petersburg Nuclear Physics Inst., Gatchina, Leningrad district (Russian Federation); Fomichev, A.V.; Donets, A.Y.; Osetrov, O.I.

    1998-11-01

    The measurements of neutron-induced cross-section ratios for Th232, U238, U233 and Np237 relative to U235 have been carried out in the energy range from 1 MeV up to 200 MeV using the neutron time-of-flight spectrometer GNEIS based on 1 GeV proton synchrocyclotron. Below 20 MeV, the results of present measurements are roughly in agreement with evaluated data though there are some discrepances to be resolved. (author)

  7. Computer codes for beam dynamics analysis of cyclotronlike accelerators

    Science.gov (United States)

    Smirnov, V.

    2017-12-01

    Computer codes suitable for the study of beam dynamics in cyclotronlike (classical and isochronous cyclotrons, synchrocyclotrons, and fixed field alternating gradient) accelerators are reviewed. Computer modeling of cyclotron segments, such as the central zone, acceleration region, and extraction system is considered. The author does not claim to give a full and detailed description of the methods and algorithms used in the codes. Special attention is paid to the codes already proven and confirmed at the existing accelerating facilities. The description of the programs prepared in the worldwide known accelerator centers is provided. The basic features of the programs available to users and limitations of their applicability are described.

  8. Model of Dees and Rotco for the 600 MeV SC

    CERN Multimedia

    CERN PhotoLab

    1978-01-01

    The accelerating frequency of the 600 MeV Synchro-Cyclotron (SC) was modulated by the varying capacity of a rotating condenser ("Rotco", the most delicate component of the SC). A 1/5-scale model, dating from the design-period of the SC, was used to study improvements to the SC RF-system, and also the acceleration of ions, first Helium and, at the time of this picture, Carbon. In the middle of the picture is the case containing the Dees. To the left, at the wide end of the cone, a rotco. Reinhold Hohbach is busy with measurements. See also 7805235 (Annual Report 1978, p.110).

  9. ISOLDE 1985-1987: In the shadow of LEP construction

    CERN Multimedia

    CERN. Geneva

    2014-01-01

    This report describes my time at CERN from 1985 to 1987. Only very briefly before, ISOLDE was recognized by the CERN Management as a CERN facility and not only as a collaboration performing experiments at the synchrocyclotron (SC). Due to LEP construction the human resources were extremely restricted and I acted in one person as ISOLDE Group Leader, as Coordinator of the Synchrocyclotron, and as person responsible for the ISOLDE Technical Group. In addition, I was responsible for the students of my research groups from Mainz University which were active in laser spectroscopy of neutron-deficient nuclides in the mercury region and in getting ISOLTRAP on the floor and into operation. Due to LEP construction also the financial resources were extremely limited and my requests to the EP Division Leader B. Hyams and to the Director General H. Schopper for financial support for installation of a laser ion source and ISOLTRAP were turned down. Still, I and my students had a lot of fun at ISOLDE and I am very happy th...

  10. Linear accelerators for high energies. A report on the 1962 conference at Brookhaven

    Energy Technology Data Exchange (ETDEWEB)

    Blewett, John P.

    1963-01-01

    The linear accelerator was invented very early in the history of particle accelerators, but it has been one of the latest accelerators to be exploited. This is principally because of the very large quantities of radio-frequency power required to attain respectable energies in a reasonable distance. Radar developments during World War II resulted in production of the necessary megawatt oscillators or amplifiers, and linear accelerators, both for electrons and positive ions, are now operating in several centers. The electron linear accelerator has been extended to billion-volt energies, and in the Stanford two-mile version it will soon set new energy records between 20 and 40 BeV. The proton linear accelerator has had a less spectacular history. The highest energy yet achieved in a proton linac is about 70 MeV (at the University of Minnesota). Smaller proton linacs are in use as injectors for proton-synchrotrons, but no machine has been built or is under construction for the range above 100 MeV. This is because synchro-cyclotrons for this energy range are much cheaper and have been preferred for this reason, in spite of the fact that the beam from a synchro-cyclotron cannot be nearly as intense or as well collimated as the beam from a linear accelerator.

  11. Project of the demonstration center of proton therapy at DLNP, JINR

    International Nuclear Information System (INIS)

    Syresin, E.M.; Breev, V.M.; Karamysheva, G.A.; Kazarinov, M.Yu.; Morozov, N.A.; Mitsyn, G.V.; Shakun, N.G.; Shvidkij, S.V.; Shirkov, G.D.; Bokor, J.

    2015-01-01

    JINR is one of the leading research centers of proton therapy in Russia. The modern technique of 3D conformal proton radiotherapy was first effectuated in Russia in this center, and now it is effectively used in regular treatment sessions. A special Medico-Technical Complex was created at JINR on the basis of the phasotron used for proton treatment. About 100 patients undergo a course of fractionated treatment here every year. During last 14 years from the startup of the Dubna radiological department more than 1000 patients were treated by protons. A project of the demonstration center of the proton therapy is discussed on the base of a super-conducting 230 MeV synchrocyclotron S2C2 of new IBA compact proton system Proteus ONE. The superconducting synchrocyclotron is planned to install instead of the phasotron at the Medico-Technical Complex of the DLNP. For the demonstration center the new transport line is designed for beam delivery to a medical cabin.

  12. Seen it in the Bulletin? Now see it in real-life!

    CERN Multimedia

    CERN Bulletin

    2013-01-01

    Detector Technologies (Map: C4): Read more about the construction and physics of the new NA62 straw chambers in “Straw Detector: 1 - Vacuum: 0”.   The Synchrocyclotron (Map: B2): Read more about the newly opened synchrocyclotron (SC) in “New life for CERN's first accelerator”.   Linac 4 (Map: D4): Visit the site of CERN’s newest linear accelerator: Linac4. Read more about the accelerator in “Linac4: the final assembly stage is under way” (2013), “Testing begins on Linac4” (2012), and “Sixteen silver wires to assemble 350 kg of copper” (2010).   Alpha Magnetic Spectrometer (AMS) (Map: I3): AMS is the most sensitive particle physics spectrometer ever deployed in space. Read about its launch in “AMS: From the ISS to CERN”.   COMPASS (Map: I1): COMPASS is a high-energy physics experiment at the SPS. Read more about its newest phase in ...

  13. Some reflections on the history of particle physics in the 1950s

    International Nuclear Information System (INIS)

    Schweber, S.S.

    1989-01-01

    This paper reflects on the differences in attitude, area of study and type of physicist between those attending the Solvay conferences in 1948 and 1961. These reflect wider historical and political changes which affected high-energy particle physics in the nineteen fifties. The growth of the field reflected post-war funding on a huge scale to ensure adequate scientific manpower for military purposes. Large synchrocyclotrons and proton-synchrotrons were built and high-energy installations became widespread in universities. Theoreticians worked closely with experimentalists using a pragmatic utilitarian approach. Later military needs began to dictate funding allocation and many theoreticians worked on military as well as their own projects. This pragmatic, group approach became accepted world-wide as the way to ''do'' big science. The funding system, including peer-review, tended only to reinforce the dominant view of theorists as valuable accessories of experimentalists. (UK)

  14. Golden Jubilee photos: The first experiments

    CERN Document Server

    2004-01-01

    A year after the commissioning of the Synchrocyclotron (SC), the first experiments were already starting to bear fruit. In July 1958, Tito Fazzini, Giuseppe Fidecaro, Alec Merrison, Helmut Paul and Alvin Tollestrup produced conclusive evidence that approximately one pion in ten thousand decayed into an electron and a neutrino, as predicted by the weak interaction theory. This, the first of CERN's great discoveries, effectively put an end to the controversy that had been raging at the time. A few years later, Giuseppe Fidecaro began a collaboration at CERN with his wife Maria. In the image, Giuseppe and Maria Fidecaro in 1963, surrounded by spark chambers, inside the detector for the experiment on the decay of the rho meson into a pi meson and a photon.

  15. ISOLDE PROGRAMME

    CERN Multimedia

    Fedosseev, V; Herfurth, F; Scheidenberger, C; Geppert, C; Gorges, C; Ratajczyk, T; Wiederhold, J C; Vogel, S; Munch, M K; Nieminen, P; Pakarinen, J J A; Lecesne, N; Bouzomita, H; Grinyer, J; Marques moreno, F M; Parlog, M; Blank, B A; Pedroza, J; Ghetta, V; Lozeva, R; Guillemaud mueller, D S; Cottereau, E; Cheikh mhamed, M; Tusseau nenez, S; Tungate, G; Walker, P M; Smith, A G; Fitzpatrick, C; Dominik, W M; Karny, M; Ciemny, A A; Nyman, G H; Thies, R M A; Lindberg, S K G; Langouche, G F; Mayet, P; Ory, G T; Kesteloot, N J K; Papuga, J; Dehairs, M H R; Callens, M; Araujo escalona, V I; Stamati, M; Boudreau, M; Domnanich, K A; Richter, D; Lutter, R J; Javaji, A; Engel, R Y; Wiehr, S; Martinez perez, T; Nacher gonzalez, E; Jungclaus, A; Ribeiro jimenez, G; Marroquin alonso, I; Cal gonzalez, J; Paziy, V; Salsac, M; Murphy, C; Podolyak, Z F; Bajoga, A D; Butler, P; Pritchard, A; Colosimo, S J; Steer, A N; Fox, S P; Wadsworth, B A; Truesdale, V L; Al monthery, M; Bracco, A; Guttormsen, M S; Badea, M N; Calinescu, S; Ujeniuc, S; Cederkall, J A; Zemlyanoy, S; Donets, E D; Golovkov, M; Schweitzer, D K; Vranicar, A; Harrichunder, S; Ncube, M; Strisovska, J; Wolf, E; Gerten, R F; Lehnert, J; Gladnishki, K A; Rainovski, G I; Pospisil, S; Datta pramanik, U; Benzoni, G; Fedorov, D; Maier, F M; Bonanni, A; Pfeiffer, B; Griesel, T; Wehner, L W; Mikkelsen, M; Recchia, F; Lenzi, S M; Smith, J F; Kelly, C M; Acosta sanchez, L A; Chavez lomeli, E R; De melo bandeira tavares, P M; Vieira, J M; Martins da silva, M A; Lima lopes, A M; Lopes leal, T J; Mader, J; Kessler, P; Laurent, B G; Schweikhard, L C; Marx, G H; Kulczycka, E; Komorowska, M; Da silva, M F; Goncalves marques, C P; Baptista peres, M A; Welander, J E; Reiter, P; Miller, C; Martin sanchez-cano, D; Wiens, A; Blazhev, A A; Braun, N; Cappellazzo, M V; Birkenbach, B; Gerst, R; Dannhoff, M F; Sithole, M J; Bilgier, B; Nardelli, S; Araujo mendes, C M; Agramunt ros, J; Valencia marin, E; Pantea, E; Hessberger, F P; Leduc, A J; Mitsuoka, S; Carbonari, A W; Buchegger, F J; Garzon camacho, A; Dapo, H; Papka, P; Stachura, M K; Stora, T; Marsh, B A; Thiboud, J A; Heylen, H; Antalic, S; Stahl, C; Bauer, C; Thurauf, M; Maass, B; Sturm, S; Boehm, C; Wolf, N R; Ways, M; Steinsberger, T P; Riisager, K; Ruotsalainen, P A; Bastin, B; Duval, F T; Penessot, G; Flechard, X D; Desrues, P; Giovinazzo, J; Kurtukian nieto, T; Ascher, P E L; Roccia, S; Matea, I; Croizet, H A G; Bonnin, C M; Morfouace, P; Smith, A J; Guin, R; Banerjee, D; Gunnlaugsson, H P; Ohtsubo, T; Zhukov, M V; Tengborn, E A; Welker, A; Giannopoulos, E; Dessagne, P; Juscamaita vivanco, Y; De rydt, M A E; Da costa pereira, L M; Vermaelen, P; Monten, R; Wursten, E J; De coster, A; Jin, H; Hustings, J; Yu, H; Kruecken, R; Nowak, A K; Jankowski, M; Cano ott, D; Murphy, A S J; Shand, C M; Jones, G D; Herzberg, R; Ikin, P; Revill, J P; Everett, C; Napoli, D R; Scarel, G; Larsen, A; Tornyi, T G; Pascu, S G; Stroe, L; Toma, S; Jansson, K; Dronjak fahlander, M; Krupko, S; Hurst, A M; Veskovic, M; Nikolov, J; Masenda, H; Sibanda, W N; Rocchini, M; Klimo, J; Deicher, M; Wichert, T; Kronenberg, J; Helmke, A; Meliani, Z; Ivanov, V S; Green, B L; Keatings, J M; Kuti, I; Halasz, Z; Henry, M O; Bras de sequeira amaral, V; Espirito santo, F; Da silva, D J; Rosendahl, S; Vianden, R J; Speidel, K; Agarwal, I; Faul, T; Kownacki, J M; Martins correia, J G; Lorenz, K; Costa miranda, S M; Granadeiro costa, A R; Zyabkin, D; Kotthaus, T; Pfeiffer, M; Gironi, L; Jensen, A; Romstedt, F; Constantino silva furtado, I; Heredia cardona, J A; Jordan martin, M D; Montaner piza, A; Zacate, M O; Plewinski, F; Mesli, A; Akakpo, E H; Pichard, A; Hergemoller, F; Neu, W; Fallis starhunter, J P; Voulot, D; Mrazek, J; Ugryumov, V; Savreux, R P; Kojouharov, I M; Stegmann, R; Kern, R O; Papst, O; Fitting, J; Lauer, M; Kirsebom, O S; Jensen, K L; Jokinen, A; Rahkila, P J; Hager, U D K; Konki, J P; Dubois, M; Orr, N A; Fabian, X; Huikari, J E; Goigoux, T; Magron, C; Zakari, A A; Maietta, M; Bachelet, C E M; Roussiere, B; Li, R; Canavan, R L; Lorfing, C; Foster, R M; Gislason, H P; Shayestehaminzadeh, S; Qi, B; Mukai, M; Watanabe, Y; Willmann, L; Kurcewicz, W; Wimmer, K; Meisel, Z P; Dorvaux, O; Nowacki, F; Koudriavtsev, I; Lievens, P; Delaure, B J P; Neyens, G; Darby, I G; Descamps, B O; Velten, P; Ceruti, S; Bunka, M; Vermeulen, C; Umbricht, C A; De boer, J; Podadera aliseda, I; Alcorta moreno, M; Pesudo fortes, V; Zielinska, M; Korten, W; Wang, C H; Lotay, G J; Mason, P; Rice, S J; Regan, P H; Willenegger, L M; Andreev, A; Yavuzkanat, N; Hass, M; Kumar, V; Valiente dobon, J J; Crespo campo, L; Zamfir, N - V; Deleanu, D; Clisu, C; Jeppesen, H B; Wu, C; Pain, S D; Stracener, D W; Szilner, S; Colovic, P; Matousek, V; Venhart, M; Birova, M; Li, X; Stuchbery, A E; Lellep, G M; Chakraborty, S; Leoni, S; Chupp, T; Yilmaz, C; Severin, G; Garcia ramos, J E; Newton, M E; Hadinia, B; Mc glynn, E; Monteiro de sena silvares de carvalho, I; Friedag, P; Figuera, P; Koos, V; Meot, V H; Pauwels, D B; Jancso, A; Srebrny, J; Alves, E J; David bosne, E; Bengtsson, L; Kalkuehler, M; Albers, M; Bharuth-ram, K; Akkus, B; Hemmingsen, L B S; Pedersen, J T; Dos santos redondo, L M; Rubio barroso, B; Algora, A; Kozlov, V; Mavela, D L; Mokhles gerami, A; Keeley, N; Bernardo da silva, E; Unzueta solozabal, I; Schell, J; Szybowicz, M; Yang, X; Plavec, J; Lassen, J; Johnston, K; Coquard, L; Bloch, T P; Bonig, E S; Ignatov, A; Paschalis, S; Fernandez martinez, G; Schilling, M; Habermann, T; Von hahn, R; Minaya ramirez, E E; Moore, I D; Wang, Y; Saastamoinen, A J; Grahn, T; Herzan, A; Stolze, S M; Clement, E; Dijon, A; Shornikov, A; Lienard, E; Gibelin, J D; Pain, C; Canchel, G; Simpson, G S; Latrasse, L P; Huang, W; Forest, D H; Billowes, J; Flanagan, K; Strashnov, I; Binnersley, C L; Sanchez poncela, M; Simpson, J; Morrall, P S; Grant, A F; Charisopoulos, S; Lagogiannis, A; Bhattacharya, C; Olafsson, S; Stepaniuk, M; Tornqvist, H T; Heinz, A M; White iv, E R; Vermote, S L; Courtin, S; Marechal, F; Randisi, G; Kana, T; Rajabali, M M; Lannoo, B J M; Frederickx, R; De coster, T J C; Roovers, N; De lemos lima, T A; Stryjczyk, M; Dockx, K; Haller, S; Rizzi, M; Reichert, S B; Bonn, J; Thirolf, P G; Garcia rios, A R; Gugliermina, V M; Cubero campos, M A; Sanchez tembleque, V; Benito garcia, J; Senoville, M; Mountford, D J; Gelletly, W; Alharbi, T S T; Wilson, E; Rigby, S V; Andreoiu, C; Paul, E S; Harkness, L J; Judson, D S; Wraith, C; Van esbroeck, K; Wadsworth, R; Cubiss, J G; Harding, R D; Vaintraub, S; Mandal, S K; Scarpa, D; Hoff, P; Syed naeemul, H; Borcea, R; Balabanski, D L; Marginean, R; Rotaru, F; Rudolph, D; Fahlander, C H; Chudoba, V; Soic, N; Naidoo, D; Veselsky, M; Kliman, J; Raisanen, J A; Dietrich, M; Maung maung than, M M T; Reed, M W; Danchev, M T; Ray, J; Roy, M; Hammen, M; Capponi, L; Veghne csatlos, M M; Fryar, J; Mirzadeh vaghefi, S P; Trindade pereira, A M; De pinho oliveira, G N; Bakenecker, A; Tramm, C; Germic, V; Morel, P A; Kowalczyk, M; Matejska-minda, M; Wolinska-cichocka, M; Ringvall moberg, A; Mantovan, R; Fransen, C H; Radeck, F; Schneiders, D W; Steinbach, T; Vibenholt, J E; Magnussen, M J; Stevnhoved, H M; Comas lijachev, V; Dasenbrock-gammon, N M; Perkowski, J; O'neill, G G; Matveev, Y; Wegner, M; Liu, Z; Perez alvarez, T; Cerato, L; Radchenko, V; Molholt, T E; Tabares giraldo, J A; Srnka, D; Dlouhy, Z; Beck, D; Werner, V R; Homm, I; Eliseev, S; Blaum, K; Probst, M B; Kaiser, C J; Martin, J A; Refsgaard, J; Peura, P J; Greenlees, P T; Auranen, K; Delahaye, P; Traykov, E K; Perez loureiro, D; Mery, A A; Couratin, C; Tsekhanovich, I; Lunney, D; Gaulard, C V; Althubiti, N A S; Mottram, A D; Cullen, D M; Das, S K; Van de walle, J; Mazzocchi, C; Jonson, B N G; Woehr, A; Lesher, S R; Zuber, K T; Filippin, L; De witte, H J; Van den bergh, P A M; Raabe, R; Depuydt, M J F; Radulov, D P; Elseviers, J; Dirkx, D; Da silva fenta, A E; Reynders, K L T; Delombaerde, L; De maesschalck, D; Parnefjord gustafsson, F O A; Dunlop, R A; Tarasava, K; Gernhaeuser, R A; Weinzierl, W; Berger, C; Wendt, K; Achtzehn, T; Gottwald, T; Schug, M; Rossel, R E; Dominguez reyes, R R; Fraile prieto, L M; Briz monago, J A; Koester, U H; Bunce, M R; Bowry, M D; Nakhostin, M; Shearman, R; Cresswell, J R; Joss, D T; Gredley, A; Groombridge, D; Laird, A M; Aslanoglou, X; Siem, S; Weterings, J A; Renstrom, T; Szpak, B T; Luczkowski, M J; Ghita, D; Bezbakh, A; Soltz, R A; Bollmann, J; Bhattacharya, P; Roy, S; Rahaman, M A; Wlodarski, T; Carvalho soares, J; Barzakh, A; Schertz, F; Froemmgen, N E; Liberati, V; Foy, B E; Baptista barbosa, M; Weinheimer, C P; Zboril, M; Simon, R E; Popescu, L A; Czosnyka, T; Miranda jana, P A; Leimbach, D; Naskrecki, R; Plociennik, W A; Ruchowska, E E; Chiara, C J; Walters, W; Eberth, J H; Thomas, T; Thole, P; Queiser, M T; Lo bianco, G; D'amico, F; Muller, S; Sanchez alarcon, R M; Tain enriquez, J L; Orrigo, S E A; Orlandi, R; Masango, S; Plazaola muguruza, F C; Lepareur, N G; Fiebig, J M; Ceylan, N; Wildner, E; Kowalska, M; Malbrunot, S; Garcia ruiz, R F; Pallada, S; Slezak, M; Roeckl, E; Schrieder, G H; Ilieva, S K; Koenig, K L; Amoretti, M A; Lommen, J M; Fynbo, H O U; Weyer, G O P; Koldste, G T; Madsboll, K; Jensen, J H; Nieminen, A M; Reponen, M; Villari, A; Thomas, J; Saint-laurent, M; Sorlin, O H; Carniol, B; Pereira lopez, J; Grevy, S; Plaisir, C; Marie-jeanne, M J; Georgiev, G P; Etile, A M; Le blanc, F M; Verney, D; Stefan, G I; Assie, M; Suzuki, D; Guillot, J; Vazquez rodriguez, L; Campbell, P; Deacon, A N; Ware, T; Flueras, A; Xie, L; Banerjee, K; Piersa, M; Galaviz redondo, D; Johansson, H T; Schwarz, S; Toysa, A S; Aumont, J; Sferrazza, M; Van duppen, P L E; Versyck, S; Dehaes, J; Bree, N C F; Neyskens, P; Carlier, L M F; De schepper, S; Dewolf, K W A; Kabir, L R; Atanasov, D; Khodery ahmad, M A; Zadvornaya, A; Renaud, M A; Xu, Z; Smolders, P; Krastev, P; Garrett, P E; Rapisarda, E; Reber, J A; Mattolat, C F; Raeder, S; Habs, D; Vidal, M; Perez liva, M; Calvo portela, P; Ulla pedrera, F J; Wood, R T; Lalkovski, S; Page, R; Petri, M; Barton, C J; Nichols, A J; Vermeulen, M J; Bloor, D M; Henderson, J; Wilson, G L; De angelis, G; Buerger, A; Modamio hoybjor, V; Klintefjord, M L; Ingeberg, V W; Fornal, B A; Marginean, R; Sava, T; Kusoglu, A; Suvaila, R; Lica, R; Costache, C; Mihai, R; Ionescu, A; Baeck, T M; Fijalkowska, A G; Sedlak, M; Koskelo, O K; Kyaw myat, K M; Ganguly, B; Goncalves marques, J; Cardoso, S; Seliverstov, M; Niessen, B D; Gutt, L E; Chapman, R; Spagnoletti, P N; Lopes, C; De oliveira amorim, C; Batista lopes, C M; Araujo, J; Schielke, S J; Daugas, J R; Gaudefroy, L; Chevrier, R; Szunyogh, D M; Napiorkowski, P J; Wrzosek-lipska, K; Wahl, U; Catarino, N; Pereira carvalho alves de sequeira, M; Hess, H E; Holler, A; Bettermann, L; Geibel, K; Taprogge, J; Lewandowski, L T N; Manchado de sola, F; Cakirli mutlu, R B; Das gupta, S; Thulstrup, P W; Heinz, U; Nogwanya, T; Neidherr, D M; Morales lopez, A I; Gumenyuk, O; Peaker, A R; Wakabayashi, Y; Abrahams, K J; Martin montes, E J; Mach, H A; Souza ribeiro junior, I; He, J; Chalil, A; Xing, R; Dos santos augusto, R M; Giles, T J; Dorsival, A; Trujillo hernandez, J S; Kalaninova, Z; Andel, B; Venos, D; Kraemer, J; Saha, S; Neugart, R; Eronen, T O; Kreim, K D; Heck, M K; Goncharov, M; Karthein, J; Julin, R J; Eleon, C; Achouri, N L; Grinyer, G F; Fontbonne, C M; Alfaurt, P; Lynch, K M; Wilkins, S G; Brown, A R; Imai, N; Pomorski, M J; Janiak, L; Nilsson, T; Stroke, H H; Stanja, J; Dangelser, E; Heenen, P; Godefroid, M; Mallion, S N; Diriken, J V J; Ghys, L H L; Khamehchi, M A; Van beveren, C; Gins, W A M; Finlay, P E J; Bouma, J T; Augustyns, V; Stegemann, S T; Koszorus, A; Mcnulty, J F; Lin, P; Ohlert, C M; Schwerdtfeger, W; Tengblad, O; Becerril reyes, A D; Perea martinez, A; Martinez perez, M C; Margerin, V; Rudigier, M; Alexander, T D; Patel, Z V; Hammond, N; Wearing, F; Patel, A; Jenkins, D G; Corradi, L; Galtarossa, F; Debernardi, A; Giacoppo, F; Tveten, G M; Malatji, K L; Krolas, W A; Stanoiu, M A; Rickert, E U; Ter-akopian, G; Cline, D; Riihimaeki, I A; Simon, K D; Wagner, F E; Turker, M; Neef, M H; Coombes, B J; Jakubek, J; Vagena, E; Bottoni, S; Nishimura, K; Correia, J; Rodrigues valdrez, C J; Molkanov, P; Adhikari, R; Ostrowski, A N; Hallmann, O; Scheck, M; Wady, P T; Lane, J; Krasznahorkay, A J; Kunne sohler, D; Meaney, A J; Hochschulz, F; Roig, O; Behan, C C; Kargoll, S; Kemnitz, S; Carvalho teixeira, R C; Redondo cubero, A; Tallarida, G; Kaczarowski, R; Finke, F; Linnemann, A; Altenkirch, R; Saed-samii, N; Ansari, S H; Dlamini, W B; Adoons, V N; Ronning, C R; Wiedeking, M; Herlert, A J; Mehl, C V; Judge, S M; Gaertner, D; Divinskyi, S; Karabasov, M O; Zagoraios, G; Boztosun, I; Van zyl, J J; Catherall, R; Lettry, J; Wenander, F J C; Zakoucky, D; Catchen, G L; Noertershaeuser, W; Kroell, T; Leske, J; Shubina, D; Murray, I M; Pancin, J; Delaunay, F; Poincheval, J J L; Audirac, L L; Gerbaux, M T; Aouadi, M; Sole, P G P; Fallot, M P; Onillon, A; Duchemin, C; Formento cavaier, R; Audi, G; Boukhari, A; Lau, C; Martin, J A; Barre, N H; Berry, T A; Procter, T J; Bladen, L K; Axiotis, M; Muto, S; Jeong, S C; Hirayama, Y; Korgul, A B; Minamisono, K; Bingham, C R; Aprahamian, A; Bucher, B M; Severijns, N; Huyse, M L; Himpe, P; Ferrer garcia, R; Marchi, T; Sambi, S; Budincevic, I; Neven, M; Verlinde, M N S; Bomans, P; Romano, N; Maugeri, E A; Klupp, S C; Dehn, M H; Heinke, R M; Naubereit, P; Maira vidal, A; Vedia fernandez, M V; Ibanez garcia, P B; Bruyneel, B J E; Materna, T; Hadynska-klek, K; Al-dahan, N; Alazemi, N; Carroll, R J; Babcock, C; Patronis, N; Eleme, Z; Dhal, A; Sahin, E; Goergen, A; Maj, A; Bednarczyk, P A; Borcea, C; Negoita, F; Suliman, G; Marginean, N M; Sotty, C O; Negret, A L; Nae, S A; Nita, C; Golubev, P I; Knyazev, A; Jost, C U; Petrik, K; Vaeyrynen, S A; Dracoulis, G D; Uher, J; Fernandez dominguez, B; Chakraborty, P; Avigo, R; Falahat, S; Lekovic, F; Dorrer, H J; Mengoni, D; Derkx, X; Angus, L J; Sandhu, K S; Gregor, E; Kelly, N A; Byrne, D J; Haas, H; Lourenco, A A; Sousa pereira, S M; Sousa, J B; De melo mendonca, T M; Tavares de sousa, C; Guerreiro dos santos oliveira custodio, L M; Da rocha rodrigues, P M; Yamaguchi, T; Thompson, P C; Rosenbusch, M; Wienholtz, F; Fischer, P; Iwanicki, J S; Rusek, K M; Hanstorp, D; Vetter, U; Wolak, J M; Park, S H; Warr, N V; Doornenbal, P C; Imig, A; Seidlitz, M; Moschner, K; Vogt, A; Kaya, L; Martel bravo, I; Orduz, A K; Serot, O; Majola, S N; Litvinov, Y; Bommert, M; Hensel, S; Markevich, V; Nishio, K; Ota, S; Matos, I; Zenkevich, A; Picado sandi, E; Forstner, O; Hu, B; Ntshangase, S S; Sanchez-segovia, J

    2002-01-01

    The experiments aim at a broad exploration of the properties of atomic nuclei far away from the region of beta stability. Furthermore, the unique radioactive beams of over 60~elements produced at the on-line isotope separators ISOLDE-2 and ISOLDE-3 are used in a wide programme of atomic, solid state and surface physics. Around 300 scientists are involved in the project, coming from about 70 laboratories. \\\\ \\\\ The electromagnetic isotope separators are connected on-line with their production targets in the extracted 600 MeV proton or 910~MeV Helium-3 beam of the Synchro-Cyclotron. Secondary beams of radioactive isotopes are available at the facility in intensities of 10$^1

  16. Franco Bonaudi 1928-2008

    CERN Multimedia

    2009-01-01

    The famous photograph taken during the first interactions in the ISR in 1971. Kjell Johnsen speaks into the microphone. Franco Bonaudi can be seen on the far left. Franco Bonaudi, one of the true pioneers of CERN’s accelerators, passed away on 21 December 2008. In 1951, Franco Bonaudi was a young research engineer specialising in electronics and radiofrequency at the Politecnico di Torino, when he was invited by Edoardo Amaldi, one of the founders of CERN, to consider working for the provisional organisation that became known as CERN (European Organization for Nuclear Research). Accepting the challenge, he was sent to Liverpool in July 1952 to work with the study group led by Cornelius Bakker for the first CERN accelerator, the 600 MeV Synchrocyclotron (SC). After two years in Liverpool, he joined the rest of the newly appointed staff in the Geneva Airport hangar, where the future SC Divis...

  17. Small-angle p-p elastic scattering at energies between 285 and 572 Me V

    CERN Document Server

    Aebischer, D; Greeniaus, L G; Hess, R; Junod, A; Lechanoine-Leluc, C; Nikles, J C; Rapin, D; Serre, Claude; Werren, D W

    1976-01-01

    Low energy proton-proton elastic scattering has been studied using an arrangement of multiwire proportional chambers at the CERN synchrocyclotron. Accurate measurements of the angular distribution for laboratory scattering angles in the range 1.5 to 10 degrees have been made at eight incident kinetic energies between 285 and 572 MeV. The interferences between the Coulomb and nuclear scattering amplitudes is used to determine the ratio alpha /sub p/=Re phi /sup N //sub +/(o)/Im phi /sup N//sub +/(o), where phi /sup N//sub +/(o) is the non-flip nuclear forward amplitude. alpha p is found to be positive and falling with energy, but is sensitive to the type of parameterization used. Reasonable consistency with dispersion relation calculations is obtained. (21 refs).

  18. The history of CERN during the early 1950s

    International Nuclear Information System (INIS)

    Amaldi, E.

    1989-01-01

    This paper, written by CERN's first secretary general, looks at the history of CERN, the first example of an intergovernmental research laboratory created in Europe, which has now been operating successfully for more than thirty years. Three distinct periods of development are identified. Early initiatives sprang from a growing sense of European union, and a desire to gain the benefits of collaboration in scale, that United States examples such as Brookhaven National Laboratory had offered. The first big project was to build a 10GeV proton-synchrotron, at that time the largest in the world. The middle era corresponds to the establishment of the organization, with personnel assembling, and buildings and plant coming on line. In October 1954, with Felix Bloch as its director general, CERN entered its final permanent form. The synchrocyclotron operated in 1958 and a proton beam circulated in the proton-synchrotron in November 1959. (UK)

  19. Clinical results of stereotactic heavy-charged-particle radiosurgery for intracranial angiographically occult vascular malformations

    Energy Technology Data Exchange (ETDEWEB)

    Levy, R.P.; Fabrikant, J.I.; Phillips, M.H.; Frankel, K.A.; Steinberg, G.K.; Marks, M.P.; DeLaPaz, R.L.; Chuang, F.Y.S.; Lyman, J.T.

    1989-12-01

    Angiographically occult vascular malformations (AOVMs) of the brain have been recognized for many years to cause neurologic morbidity and mortality. They generally become symptomatic due to intracranial hemorrhage, focal mass effect, seizures or headaches. The true incidence of AOVMs is unknown, but autopsy studies suggest that they are more common than high-flow angiographically demonstrable arteriovenous malformations (AVMs). We have developed stereotactic heavy-charged-particle Bragg peak radiosurgery for the treatment of inoperable intracranial vascular malformations, using the helium ion beams at the Lawrence Berkeley Laboratory 184-inch Synchrocyclotron and Bevatron. This report describes the protocol for patient selection, radiosurgical treatment planning method, clinical and neuroradiologic results and complications encountered, and discusses the strengths and limitations of the method. 10 refs., 1 fig.

  20. Clinical results of stereotactic heavy-charged-particle radiosurgery for intracranial angiographically occult vascular malformations

    International Nuclear Information System (INIS)

    Levy, R.P.; Fabrikant, J.I.; Phillips, M.H.; Frankel, K.A.; Steinberg, G.K.; Marks, M.P.; DeLaPaz, R.L.; Chuang, F.Y.S.; Lyman, J.T.

    1989-12-01

    Angiographically occult vascular malformations (AOVMs) of the brain have been recognized for many years to cause neurologic morbidity and mortality. They generally become symptomatic due to intracranial hemorrhage, focal mass effect, seizures or headaches. The true incidence of AOVMs is unknown, but autopsy studies suggest that they are more common than high-flow angiographically demonstrable arteriovenous malformations (AVMs). We have developed stereotactic heavy-charged-particle Bragg peak radiosurgery for the treatment of inoperable intracranial vascular malformations, using the helium ion beams at the Lawrence Berkeley Laboratory 184-inch Synchrocyclotron and Bevatron. This report describes the protocol for patient selection, radiosurgical treatment planning method, clinical and neuroradiologic results and complications encountered, and discusses the strengths and limitations of the method. 10 refs., 1 fig

  1. Arguments pro and contra the European laboratory in the participating countries

    International Nuclear Information System (INIS)

    Hermann, A.

    1989-01-01

    This chapter looks at how the decisions to participate in CERN, the European high energy particle physics laboratory founded in the 1950s, were made by certain participating countries, namely the United Kingdom, France, Italy and Germany. The idea of a united Europe was given high priority in France, Italy and Germany, all of which lacked accelerators and lagged behind the United Kingdom (UK), with its 400MeV Liverpool synchrocyclotron, in nuclear physics research. The UK thus remained as observer only until CERN was officially founded in September 1954. The French were particularly anxious to gain national prestige by influencing the development of the organization. All agreed that from the political point of view, developed science guarantees a high level of war technology. (UK)

  2. U, Th and Bi fission induced by protons of 600 MeV

    International Nuclear Information System (INIS)

    Baptista, G.B.

    1970-01-01

    The measurements of U, Bi an Th fission cross sections induced by protons of 600 MeV were carried out, using nuclear emulsion techniques. The targets were prepared from KO Ilford type emulsion using solutions of U, Bi and Th complexes for its loading. The proton beam of 586 +- 5 MeV and integrated flux of 1,6 (+- 4,890)X10 11 protons from CERN Synchro-Cyclotron was used for irradiating nuclear emulsions. The integrated flux was carried from aluminium desintegration curves by Al 22 (p, 3pn) Na 24 reaction. The fission events, were observed using Leitz microscopy and the statistical error of 10% were calculated. (M.C.K.) [pt

  3. Les années Joliot

    OpenAIRE

    Bimbot, René

    2009-01-01

    Avec la construction d’un synchrocyclotron à protons, la création du Laboratoire de physique nucléaire d’Orsay, extension de l’Institut du radium de Paris, marque l’entrée des grands accélérateurs dans la recherche française. Mais les débuts du premier laboratoire de la future université d’Orsay vont être endeuillés par la disparition de ses deux fondateurs, Irène Joliot-Curie en 1956, et Frédéric Joliot en 1958. The Orsay Laboratoire de physique nucléaire (Nuclear Physics Laboratory) was ...

  4. Experimental detection and investigation of muon catalyzed fusion process of deuterium and tritium nuclei

    International Nuclear Information System (INIS)

    Bystritskij, V.M.; Dzhelepov, V.P.; Ershova, Z.V.

    1980-01-01

    On the muon beam of the JINR synchrocyclotron there was measured the yield of neutrons from reaction dtsub(μ) yields sup(4)He+n+μsup(-)+17.6 MeV induced by negative muons in gaseous D 2 +T 2 mixture. On the basis of the data obtained the low limit of the dtsub(μ) molecules formation rate lambdasub(dtsub(μ))>10sup(8) s -1 and the rate of muon transfer from deuterium to tritium lambdasub(dt)=(2.9+-0.4)x10 8 s -1 were obtained. The block-diagram of the experimental plant with monitoring counters with a plastic scintillator and crystal counter is described in detail. The basic part of the plant constitutes a gas deuterium-tritium target. The general view of the gas target and the scheme of target filling with deuterium and tritium as well as the electronic apparatus block-diagram are presented [ru

  5. Angular distributions and anisotropy of fission fragments from neutron-induced fission in intermediate energy range 1-200 MeV

    Science.gov (United States)

    Vorobyev, Alexander S.; Gagarski, Alexei M.; Shcherbakov, Oleg A.; Vaishnene, Larisa A.; Barabanov, Alexei L.

    2017-09-01

    Angular distributions of fission fragments from the neutron-induced fission of 232Th, 233U, 235U, 238U and 209Bi have been measured in the energy range 1-200 MeV at the neutron TOF spectrometer GNEIS based on the spallation neutron source at 1 GeV proton synchrocyclotron of the PNPI (Gatchina, Russia). The multiwire proportional counters have been used as a position sensitive fission fragment detector. A description of the experimental equipment and measurement procedure is given. The anisotropy of fission fragments deduced from the data on measured angular distributions is presented in comparison with experimental data of other authors, first of all, the recent data from WNR at LANSCE (Los Alamos, USA) and n_TOF(CERN).

  6. Angular distributions and anisotropy of fission fragments from neutron-induced fission in intermediate energy range 1–200 MeV

    Directory of Open Access Journals (Sweden)

    Vorobyev Alexander S.

    2017-01-01

    Full Text Available Angular distributions of fission fragments from the neutron-induced fission of 232Th, 233U, 235U, 238U and 209Bi have been measured in the energy range 1–200 MeV at the neutron TOF spectrometer GNEIS based on the spallation neutron source at 1 GeV proton synchrocyclotron of the PNPI (Gatchina, Russia. The multiwire proportional counters have been used as a position sensitive fission fragment detector. A description of the experimental equipment and measurement procedure is given. The anisotropy of fission fragments deduced from the data on measured angular distributions is presented in comparison with experimental data of other authors, first of all, the recent data from WNR at LANSCE (Los Alamos, USA and n_TOF(CERN.

  7. The data acquisition system (DAS) for the improved CERN SC

    CERN Document Server

    Beger, H; Fiebig, A; Schroot, H

    1975-01-01

    A digital data acquisition system (DAS) based on a minicomputer is described which registers the failure sequences in various equipment areas of the CERN synchrocyclotron (henceforward referred to as the SC). The avalanches of failure signals which occur from time to time are tapped from the alarm/security systems, time-resolved to 10 msec and recorded on a printer in order to aid SC failure diagnosis. The mechanisms of the DAS and its relation to the SC equipment are explained in some detail. All programs were constructed at assembler language level for speed and for ease of on-line program maintenance. The alarm sequences recorded have been of considerable help during the running in of the new radiofrequency system. Now that the new SC is operational, the DAS furnishes useful data from several equipment areas to the operators and engineers.

  8. Medical Cyclotrons

    Science.gov (United States)

    Friesel, D. L.; Antaya, T. A.

    Particle accelerators were initially developed to address specific scientific research goals, yet they were used for practical applications, particularly medical applications, within a few years of their invention. The cyclotron's potential for producing beams for cancer therapy and medical radioisotope production was realized with the early Lawrence cyclotrons and has continued with their more technically advanced successors — synchrocyclotrons, sector-focused cyclotrons and superconducting cyclotrons. While a variety of other accelerator technologies were developed to achieve today's high energy particles, this article will chronicle the development of one type of accelerator — the cyclotron, and its medical applications. These medical and industrial applications eventually led to the commercial manufacture of both small and large cyclotrons and facilities specifically designed for applications other than scientific research.

  9. Werner Albrecht (1924 - 2014)

    CERN Multimedia

    2014-01-01

    Werner Albrecht, one of the very first mechanical designers recruited by CERN, passed away on 28 March. Born and educated in Zurich, where he spent the first years of his professional life, he joined CERN in June 1955.   Thanks to his experience and personality, he soon became the deputy to Frank Blythe, the head of the Synchrocyclotron (SC) technical office. The office, which included a large mechanical workshop, had been created in the light of the development and construction of the SC - the first of CERN’s accelerators. For around 25 years Werner kept this position at Frank’s side while the services under their responsibility evolved to become the natural facility to provide design and development for a large range of apparatus required by experimental physicists. After Frank’s retirement in 1980, Werner became head of the office, maintaining its typical character as an efficient, informal and friendly service. Omega, UA1, Aleph, Opal and Delphi are example...

  10. Fission cross section measurements at intermediate energies

    International Nuclear Information System (INIS)

    Laptev, Alexander

    2005-01-01

    The activity in intermediate energy particle induced fission cross-section measurements of Pu, U isotopes, minor actinides and sub-actinides in PNPI of Russia is reviewed. The neutron-induced fission cross-section measurements are under way in the wide energy range of incident neutrons from 0.5 MeV to 200 MeV at the GNEIS facility. In number of experiments at the GNEIS facility, the neutron-induced fission cross sections were obtained for many nuclei. In another group of experiments the proton-induced fission cross-section have been measured for proton energies ranging from 200 to 1000 MeV at 100 MeV intervals using the proton beam of PNPI synchrocyclotron. (author)

  11. The Children of the Night need your help

    CERN Multimedia

    Antonella Del Rosso

    2015-01-01

    The “Children of the Night” is a colloquial name given to children suffering from Xeroderma pigmentosum (XP), a genetic disorder that causes extreme sensitivity to ultraviolet light. When affected individuals are exposed to the sun, their skin undergoes alterations that can quickly develop into cancer. Special equipment has been developed to protect them from UV exposure but it is uncomfortable and very expensive. The association THE Port has a project to help the children afflicted by the disorder and their families and is looking for experts who can contribute.   Visiting the Synchrocyclotron. Their homes are kept in darkness and they leave them only at nighttime. During the day they can’t go anywhere without a special suit that protects their skin and eyes from the sun’s rays. Mutant genes in their DNA impair their bodies’ capacity to repair and accurately replicate DNA damaged by UV light. This deficiency causes cancers to develo...

  12. Future dedicated medical ion accelerator

    International Nuclear Information System (INIS)

    Gough, R.A.; Alonso, J.R.; Elioff, T.; Grunder, H.

    1980-01-01

    Current biomedical studies and clinical trials with charged particles rely on accelerators that were designed for physics research. In contrast, the design and construction of particle accelerators designed specifically to meet medical requirements would result in cost-effective and highly reliable accelerators suitable for routine, hospital-based, clinical service with modest operations and maintenance crews. The experience of the LBL 184-Inch Synchrocyclotron, which is dedicated for medical use, indicates that extremely high facility availability can be readily achieved when operational standards are optimized for reliability. Therefore, we are in the process of submitting to the National Cancer Institute a three-year design proposal (for fiscal years 1981 to 1983) to perform the requisite research and development and to generate plans and realistic cost estimates for a dedicated heavy-ion medical accelerator suitable for a hospital-based environment

  13. The production of iodine-123 on the Harwell variable energy cyclotron

    International Nuclear Information System (INIS)

    Cuninghame, J.G.; Hill, J.I.S.; Nichols, A.L.; Taylor, N.K.

    1978-01-01

    123 I has often been called the isotope of choice for dynamic body function studies in nuclear medicine. There has therefore, been a keen interest in the possibility of regular supply of high purity 123 I produced by the Harwell Variable Energy Cyclotron (VEC) and Synchrocyclotron (SC). This report describes a three year research and development programme on the VEC which has resulted in a method for the safe and reliable large scale production of 123 I by irradiation of di-iodomethane with 58 MeV protons. The quality of the product, and the medical trials which have been carried out with it, are also discussed. The processing and handling of the hundreds of millicuries produced during a run presents serious handling problems. These have been solved and the methods and equipment developed are described. (author)

  14. Transport of one SC coil through the village of Meyrin

    CERN Multimedia

    1956-01-01

    In 1952, before CERN was officially founded, two accelerator projects were launched: one for an innovative accelerator to operate at an energy level unequalled at the time, the other for a more standard machine, a Synchro-Cyclotron (SC) to operate at 600 MeV. Design work on the SC was started in 1952 and carried out by teams scattered throughout Europe. Once construction began in 1954, CERN had to arrange road transport for the first of what has since been a long series of spectacular component deliveries, such as those of the machine's two magnetic coils each weighing 60 tonnes and measuring 7.2 metres in diameter. Above, one of them is seen passing through the village of Meyrin. The SC was commissioned in 1957 and was operational for 34 years!

  15. Golden Jubilee photos

    CERN Multimedia

    2004-01-01

    Flash-back on 50 years of history. The SC, the first Machine In 1952, before CERN was officially founded, two accelerator projects were launched: one for an innovative accelerator to operate at an energy level unequalled at the time, the other for a more standard machine, a Synchro-Cyclotron (SC) to operate at 600 MeV. Design work on the SC was started in 1952 and carried out by teams scattered throughout Europe. Once construction began in 1954, CERN had to arrange road transport for the first of what has since been a long series of spectacular component deliveries, such as those of the machine's two magnetic coils each weighing 60 tonnes and measuring 7.2 metres in diameter. Above, one of them is seen passing through the village of Meyrin. The SC was commissioned in 1957 and was operational for 34 years!

  16. Changes in the mean square charge radii and electromagnetic moments of neutron-deficient Bi isotopes

    International Nuclear Information System (INIS)

    Barzakh, A. E.; Batist, L. Kh.; Fedorov, D. V.; Ivanov, V. S.; Molkanov, P. L.; Moroz, F. V.; Orlov, S. Yu.; Panteleev, V. N.; Seliverstov, M. D.; Volkov, Yu. M.

    2015-01-01

    In-source laser spectroscopy experiments for neutron deficient bismuth isotopes at the 306.77 nm atomic transition were carried out at the IRIS (Investigation of Radioactive Isotopes on Synchrocyclotron) facility of Petersburg Nuclear Physics Institute (PNPI). New data on isotope shifts and hyperfine structure for 189–198, 211 Bi isotopes and isomers were obtained. The changes in the mean-square charge radii and the magnetic moment values were deduced. Marked deviation from the nearly spherical behavior for ground states of bismuth isotopes at N < 109 is demonstrated, in contrast to the lead and thallium isotopic chains. The big isomer shift between I = 1/2 (intruder) and I = 9/2 (normal) states for odd Bi isotopes (A = 193, 195, 197) was found

  17. Overview of Light-Ion Beam Therapy

    Energy Technology Data Exchange (ETDEWEB)

    Chu, William T.

    2006-03-16

    In 1930, Ernest Orlando Lawrence at the University of California at Berkeley invented the cyclotron. One of his students, M. Stanley Livingston, constructed a 13-cm diameter model that had all the features of early cyclotrons, accelerating protons to 80 keV using less than 1 kV on a semi-circular accelerating electrode, now called the ''dee''. Soon after, Lawrence constructed the first two-dee 27-Inch (69-cm) Cyclotron, which produced protons and deuterons of 4.8 MeV. In 1939, Lawrence constructed the 60-Inch (150-cm) Cyclotron, which accelerated deuterons to 19 MeV. Just before WWII, Lawrence designed a 184-inch cyclotron, but the war prevented the building of this machine. Immediately after the war ended, the Veksler-McMillan principle of phase stability was put forward, which enabled the transformation of conventional cyclotrons to successful synchrocyclotrons. When completed, the 184-Inch Synchrocyclotron produced 340-MeV protons. Following it, more modern synchrocyclotrons were built around the globe, and the synchrocyclotrons in Berkeley and Uppsala, together with the Harvard cyclotron, would perform pioneering work in treatment of human cancer using accelerated hadrons (protons and light ions). When the 184-Inch Synchrocyclotron was built, Lawrence asked Robert Wilson, one of his former graduate students, to look into the shielding requirements for of the new accelerator. Wilson soon realized that the 184-Inch would produce a copious number of protons and other light ions that had enough energy to penetrate human body, and could be used for treatment of deep-seated diseases. Realizing the advantages of delivering a larger dose in the Bragg peak when placed inside deep-seated tumors, he published in a medical journal a seminal paper on the rationale to use accelerated protons and light ions for treatment of human cancer. The precise dose localization provided by protons and light ions means lower doses to normal tissues adjacent to the

  18. Overview of Light-Ion Beam Therapy

    International Nuclear Information System (INIS)

    Chu, William T.

    2006-01-01

    In 1930, Ernest Orlando Lawrence at the University of California at Berkeley invented the cyclotron. One of his students, M. Stanley Livingston, constructed a 13-cm diameter model that had all the features of early cyclotrons, accelerating protons to 80 keV using less than 1 kV on a semi-circular accelerating electrode, now called the ''dee''. Soon after, Lawrence constructed the first two-dee 27-Inch (69-cm) Cyclotron, which produced protons and deuterons of 4.8 MeV. In 1939, Lawrence constructed the 60-Inch (150-cm) Cyclotron, which accelerated deuterons to 19 MeV. Just before WWII, Lawrence designed a 184-inch cyclotron, but the war prevented the building of this machine. Immediately after the war ended, the Veksler-McMillan principle of phase stability was put forward, which enabled the transformation of conventional cyclotrons to successful synchrocyclotrons. When completed, the 184-Inch Synchrocyclotron produced 340-MeV protons. Following it, more modern synchrocyclotrons were built around the globe, and the synchrocyclotrons in Berkeley and Uppsala, together with the Harvard cyclotron, would perform pioneering work in treatment of human cancer using accelerated hadrons (protons and light ions). When the 184-Inch Synchrocyclotron was built, Lawrence asked Robert Wilson, one of his former graduate students, to look into the shielding requirements for of the new accelerator. Wilson soon realized that the 184-Inch would produce a copious number of protons and other light ions that had enough energy to penetrate human body, and could be used for treatment of deep-seated diseases. Realizing the advantages of delivering a larger dose in the Bragg peak when placed inside deep-seated tumors, he published in a medical journal a seminal paper on the rationale to use accelerated protons and light ions for treatment of human cancer. The precise dose localization provided by protons and light ions means lower doses to normal tissues adjacent to the treatment volume

  19. James V. Allaby (1936-2009)

    CERN Multimedia

    2009-01-01

    It was with shock and sorrow that we heard Jim Allaby passed away on 7 April. Jim was born in Preston, England, in October 1936. After obtaining a first degree in physics at King’s College, London, he moved to Liverpool to study for his PhD at the university’s synchrocyclotron. This was his first proton-proton scattering experiment, and was also the start of a lifelong friendship with Bert Diddens, who was there as a CERN fellow. In the early 1960s Jim moved to SLAC where he worked with Dave Ritson on electron inelastic scatterings. Ritson greatly appreciated Jim’s calm and systematic approach to any kind of problem he was confronted with. Thus it was natural for Jim to visit SLAC later and for Ritson to join the DELPHI Collaboration in the 1990s. Jim came to CERN in the summer of 1965. He joined the CERN group of Giuseppe Cocconi, Bert Diddens and Alan Wetherell, who were preparing proton-proton scattering experiments, in a s...

  20. James V. Allaby (1936-2009)

    CERN Multimedia

    2009-01-01

    Jim Allaby standing in front of the target calorimeter of the CHARM neutrino experiment (WA18) .It was with shock and sorrow that we heard Jim Allaby passed away on 7 April. Jim was born in Preston, England, in October 1936. After obtaining a first degree in physics at King’s College, London, he moved to Liverpool to study for his PhD at the university’s synchrocyclotron. This was his first proton-proton scattering experiment, and was also the start of a lifelong friendship with Bert Diddens, who was there as a CERN fellow. In the early 1960s Jim moved to SLAC where he worked with Dave Ritson on electron inelastic scatterings. Ritson greatly appreciated Jim’s calm and systematic approach to any kind of problem he was confronted with. Thus it was natural for Jim to visit SLAC later and for Ritson to join the DELPHI Collaboration in the 1990s. Jim came to CERN in the summer of 1965. He joined the CERN group of Giuseppe Coc...

  1. Behind the scenes of GS: precious stones

    CERN Multimedia

    Anaïs Schaeffer

    2014-01-01

    Since the laying of the foundation stone for the Synchrocyclotron in June 1954, CERN has been expanding constantly to reach a current constructed surface area of 580,000 m2 covered by some 650 buildings (just 125 of which account for 70% of this area).   This year, while CERN’s 60th anniversary is an important milestone in the Laboratory’s history, it also highlights another reality: CERN is a collection of ageing buildings, no less than 60% of which are more than 40 years old. “Of the 580,000 m2 of buildings, around 52,000 m2 are nearing the end of their useful life and 140,000 m2 are in need of extensive renovations,” says Natacha Lopez, GS-SE-PO Section Leader. “Of course, we’ve already started several renovation projects, but it's a huge challenge as we have to renovate buildings constructed in the 1960s and 70s while complying with modern standards, which are very different from those that were in force when they were bu...

  2. Neutrinos at CERN

    International Nuclear Information System (INIS)

    Anon.

    1993-01-01

    CERN's long and distinguished neutrino tradition began in 1958 at the then new 500 MeV synchrocyclotron (SC) with the first observation of the decay of a charged pion into an electron and a neutrino. At that time, the first ideas on the special (vector/axial vector) structure of the weak interactions had been put forward by Feynman and Gell-Mann and by Marshak and Sudarshan, but the continual non-observation of that charged pion decay was holding up progress. This decay is only one part in ten thousand, and is masked by the dominant muon-neutrino channel. A special telescope was built to pick up the high energy electrons from the pion decay. In 1962 came another SC neutrino success, with the first measurement of the decay of a charged pion into a neutral one, with emission of an electron and a neutrino. Meanwhile the main thrust of CERN's neutrino effort was taking shape at the PS. By the close of 1960, CERN had decided to attack neutrino physics using several detectors - a 1m heavy liquid bubble chamber from Andre Lagarrigue's team in Paris, a CERN 1 m heavy liquid bubble chamber, and a hybrid chamber/counter from a group led by Helmut Faissner

  3. 208Pb giant resonance excitation by inelastic scattering of 201MeV protons, 108MeV deuterons and 218MeV alphas

    International Nuclear Information System (INIS)

    Djalali, C.

    1981-01-01

    The region of the giant resonances has been studied in Pb by inelastic scattering of protons, deuterons and alpha particles. The new experimental set up at the Orsay synchrocyclotron allows measurements at angles as small as 3 deg with an energy resolution of 3.10 -4 . Using DWBA the data have been analysed within the collective model. The importance of the Coulomb excitation of the GDR(ΔT=1) is stressed, especially for protons. A resonance located at 21.5 MeV is strongly excited by protons, at forward angles and it is interpreted as a sum of a GQR(ΔT=1) and a GDR(ΔT=0) exhausting respectively 80 % AND 12 % of their corresponding EWSR. A HEOR(ΔT=0) is excited by deuterons at 17.8 MeV, exhausting 12 % of the EWSR. The strengthes extracted for the GQR(ΔT=0) with deuterons and alpha particles are in agreement (approximately 60 % of the EWSR); much less strength is found with protons (approximately 30 %). These differences show that the use of electromagnetic transitions operators and sum rules for 201 MeV protons is not correct. In the GQR region, fine structures are detected, however there is no clear evidence for M1(ΔT=1) transitions [fr

  4. 1983. Annual progress report

    International Nuclear Information System (INIS)

    1984-01-01

    A beautiful experiment series for studying high energy excitation structures (10 to 80 MeV), concerning very heavy and asymmetric systems. CEV-Alice contributions to annual report concern Hg and Er high spin energy levels. About reaction mechanisms, the following contributions can be noticed: proton backward emission experiment results of high energy, at 200 MeV, on numerous targets; spectroscopic studies of direct transfer reactions by 18 O with measurement of angular distributions until 0 0 ; many heavy ion experiments around 30 MeV/u concerning the mechanism evolution between 10 and 100 MeV. Pion coherent production experiments have been made this year on energy dependence of the reaction 3 He+ 3 He → 6 Li+π + , considered as an existing model test. Cross section measurement of the elementary reactions (p,π + ) on three targets of very different masses, in a large energy scale and a wide angular domain, have been measured at the Synchrocyclotron. Concerning the nuclear structure in low and medium energy levels, elastic scattering and transfer studies are to be noticed particularly in transition nuclei region. Exotic nuclei rich in neutrons, with medium mass, Fe, Co, Ni, Zn have been studied using the 14 C beam of the Orsay tandem. The radiochemistry group work is essentially centered on actinides study [fr

  5. Experiments at CERN in 1985

    International Nuclear Information System (INIS)

    1985-11-01

    This book is a compilation of the current experimental program at CERN. The experiments listed are being performed at one of the following machines: the Super Proton Synchrotron (SPS), the Proton Synchrotron (PS) and the Synchro-Cyclotron (SC). The four experiments to be done by means of the Large Electron Positron machine (LEP) are also listed. The schematic layouts of beams and experiments at the various machines are given in the beginning of the report. The experiment goals and methods are briefly described and a schematic layout of the apparatus is included. Lists of participants and their institutions are also given. The status of the experiments (preparation, data-taking, completed) corresponds to the situation as of 1st November, 1985. ''Completed'' means only that data-taking is finished, not necessarily the analysis of the results; this status is kept for two years and then the experiment is removed from the catalogue. A complete list of all experiments published in this book since 1975 is given at the end of the catalogue. (orig./HSI)

  6. Recent developments and on-line tests of uranium carbide targets for production of nuclides far from

    CERN Document Server

    V.N. Panteleev et al.

    The capacity of uranium carbide target materials of different structure and density for production of neutron-rich and heavy neutron-deficient isotopes have been investigated at the IRIS facility (PNPI) in the collaboration with Legnaro – GANIL – Orsay laboratories. The yields and release times of the species produced in the targets by the reactions induced by a 1 GeV proton beam of the PNPI synchrocyclotron have been measured. For the purpose to elaborate the most efficient and fast uranium carbide target prototype three kinds of the target materials were studied: a) a high density UC target material having ceramic-like structure with the density of 11 g/cm3 and the grain dimensions of about 200 microns; b) a high density UC target material with the density of 12 g/cm3 and the grain dimensions of about 20 microns prepared by the method of the powder metallurgy; c) a low density UCx target material with the density 3g/cm3 and the grain dimensions of about 20 microns prepared by the ISOLDE method. The comp...

  7. New techniques at ISOLDE-2

    CERN Document Server

    Ravn, H L; Denimal, J; Kugler, E; Skarestad, M; Sundell, S; Westgaard, L

    1976-01-01

    Experiments at the reconstructed on-line isotope separator facility ISOLDE-2 at the CERN 600 MeV synchrocyclotron are now in progress. Over the past year the extracted proton beam has been raised to 1.3 mu A, and the design value of 5 mu A is now within reach. The target and ion-source technology developed before the reconstruction has been further improved so as to permit the utilisation of the high proton- beam intensities and to increase the range of elements available for study to 30. With a proton-beam intensity of 0.7 mu A the radioactive Cs/sup +/ beams after mass separation have increased by a factor of 300 and, in the most favoured cases, are exceeding 6 nA. This permits the visualisation of the separated radioactive ion beams by means of the usual beam scanners. A new target concept, a finely divided metal powder at ultra-high temperatures, features a short delay component which enhances the yield of very short-lived products. The new beam- optical system supplies four measuring stations simultaneou...

  8. The order for enforcing the law concerning prevention from radiation hazards due to radioisotopes

    International Nuclear Information System (INIS)

    1977-01-01

    The radioactive isotopes stipulated in Item 2, Article 2 of the Law Concerning Prevention from Radiation Hazards due to Radisotopes (hereinafter referred to as the Law) are the isotopes emitting radiation, their compounds, and those containing these isotopes or compounds. The radiation-generating apparatuses in Item 3, Article 2 of the Law are cyclotron, synchrotron, synchrocyclotron, linear accelerator, betatron, Van de Graaff accelerator, Cockcroft Walton accelerator, the apparatuses generating radiation by accelerating charged particles, which are designated by the Director of the Science and Technology Agency as necessary for preventing radiation injuries. Those who want to use, sell or dispose of radioactive isotopes should file applications for approval or notices with required documents. The approval should be obtained for each factory or place of business. The amount of completely sealed radioactive isotopes specified by the cabinet order stipulated in Item 1, Article 3-2 of the Law is 100 m curie per factory or place of business. Those who are going to change the approved items of the use, sale or disposal of radioactive isotopes should file applications. The amount of radioactive isotopes specified by the cabinet order stipulated in Item 5, Article 10 of the Law is 10 curies. Controlled areas, facilities for using, refilling, and storing isotopes, refilling and disposing wastes should meet the stipulated standards. (Rikitake, Y.)

  9. Louis Dick (1921 - 2014)

    CERN Multimedia

    2014-01-01

    Louis Dick, a CERN experimental physicist of international renown, passed away on 14 July.   Louis in his office, a veritable archaeological wonder with strata of documents corresponding to various eras of physics. Born in Geneva on 27 April 1921, Louis obtained a physics degree at ETH-Zurich in 1946 before moving to the Institut du Radium in Paris, where he joined the group led by Frédéric and Irène Joliot-Curie. He took a leave of absence in 1957 to go to CERN, where he remained until well beyond his retirement in 1986. In the late 1950s and early 1960s, Louis worked at CERN’s Synchrocyclotron (SC) and later on studies at the Proton Synchrotron (PS). When the first polarised proton target arrived at CERN from Saclay in 1963, Louis proposed using it for studies of spin effects in pion-proton elastic scattering at the PS, and between 1964 and 1966 sizeable spin effects were found. Louis and his collaborators then continued these studies wi...

  10. Light-ion therapy in the U.S.: From the Bevalac to ??

    Energy Technology Data Exchange (ETDEWEB)

    Alonso, Jose R.; Castro, Joseph R.

    2002-09-24

    While working with E.O. Lawrence at Berkeley, R.R. Wilson in 1946 noted the potential for using the Bragg-peak of protons (or heavier ions) for radiation therapy. Thus began the long history of contributions from Berkeley to this field. Pioneering work by C.A. Tobias et al at the 184-Inch Synchrocyclotron led ultimately to clinical applications of proton and helium beams, with over 1000 patients treated through 1974 with high-energy plateau radiation; placing the treatment volume (mostly pituitary fields) at the rotational center of a sophisticated patient positioner. In 1974 the SuperHILAC and Bevatron accelerators at the Lawrence Berkeley Laboratory were joined by the construction of a 250-meter transfer line, forming the Bevalac, a facility capable of accelerating ions of any atomic species to relativistic energies. With the advent of these new beams, and better diagnostic tools capable of more precise definition of tumor volume and determination of the stopping point of charged-particle beams, large-field Bragg-peak therapy with ion beams became a real possibility. A dedicated Biomedical experimental area was developed, ultimately consisting of three distinct irradiation stations; two dedicated to therapy and one to radiobiology and biophysics. These facilities included dedicated support areas for patient setup and staging of animal and cell samples, and a central control area linked to the main Bevatron control room.

  11. Calculation of beam injection and modes of acceleration for the JINR phasotron

    International Nuclear Information System (INIS)

    Vorozhtsov, S.B.; Dmitrievsky, V.P.

    1981-01-01

    On the basis of computer simulation of particles motion from the injection region up to the final radius of the accelerated proton beam behaviour together with different modes of the JINR high current synchrocyclotron operation is investigated. The THOUR modified computer code is used for calculations. The calculations have been performed with allowance for particle radial-phase motion and particle axial motion and although with beam collective effects. Beam dynamics during first turns of particles has been considered by integrating equations of motion. Tolerances for magnetic field structure in the region of first phase oscillation are obtained. Verifications of time dependences of accelerated voltage amplitude are performed. Time dependences of beam intensity (with and without account for space charge effect) and of mean magnetic field disturbance and the dependence of the separatrice dimension on the orbit radius of the accelerated beam are given. The conclusion is drawn on the correctness of the earlier appreciation of beam intensity equaling 40-45 mkA

  12. Eddy Powell 1939 - 2003

    CERN Multimedia

    2003-01-01

    We were saddened to learn that Eddy Powell had passed away on Saturday 26 July after a long illness. Eddy had so many friends at CERN and made such a contribution to the Organisation that it is impossible that his passing goes without comment. Eddy was born in England on 4 August 1939 and, after serving his apprenticeship with the U.K. Ministry of Defence, he joined CERN in September 1965. As an electrical design draftsman with the Synchro-cyclotron Division he played an important role in the upgrades of that machine in the early 1970's, particularly on the RF systems and later on the development of the ISOLDE facility. This brought him into close contact with many of the technical support services in CERN and, unlike many of his compatriots, he acquired a remarkably good fluency in French. Always inquisitive on the physics carried out at CERN, he spent a great deal of time learning from physicists and engineers at all levels. When he felt sufficiently confident he became a CERN Guide for general public visit...

  13. Future plans at ISOLDE

    CERN Document Server

    Lindroos, M

    2003-01-01

    The CERN ISOLDE facility has operated for over 30 years delivering beams of exotic ions to an ever-growing user community. The facility went through a major up-grade in the early 1990s with the move from the 600 MeV synchrocyclotron to the 1 GeV PS-Booster proton synchrotron. This was followed by a primary proton beam energy up grade to 1.4 GeV in 1999. Lately, an important step forward was taken with the start of the REX-ISOLDE experiment for charge breeding and post acceleration of exotic ions. CERN has recently decided on a consolidation project for the facility to assure that the required number of shifts can be delivered in the future. An overview will be given of the on-going consolidation and development programme and its implications on the physics programme, in particular the REX-ISOLDE post accelerator experiment. An important parameter for a better yield of very exotic elements is the primary proton beam intensity, beam energy and time structure. The possible short-term improvements of, in particul...

  14. Light-ion therapy in the US: From the Bevalac to ??

    International Nuclear Information System (INIS)

    Alonso, Jose R.; Castro, Joseph R.

    2002-01-01

    While working with E.O. Lawrence at Berkeley, R.R. Wilson in 1946 noted the potential for using the Bragg-peak of protons (or heavier ions) for radiation therapy. Thus began the long history of contributions from Berkeley to this field. Pioneering work by C.A. Tobias et al at the 184-Inch Synchrocyclotron led ultimately to clinical applications of proton and helium beams, with over 1000 patients treated through 1974 with high-energy plateau radiation; placing the treatment volume (mostly pituitary fields) at the rotational center of a sophisticated patient positioner. In 1974 the SuperHILAC and Bevatron accelerators at the Lawrence Berkeley Laboratory were joined by the construction of a 250-meter transfer line, forming the Bevalac, a facility capable of accelerating ions of any atomic species to relativistic energies. With the advent of these new beams, and better diagnostic tools capable of more precise definition of tumor volume and determination of the stopping point of charged-particle beams, large-field Bragg-peak therapy with ion beams became a real possibility. A dedicated Biomedical experimental area was developed, ultimately consisting of three distinct irradiation stations; two dedicated to therapy and one to radiobiology and biophysics. These facilities included dedicated support areas for patient setup and staging of animal and cell samples, and a central control area linked to the main Bevatron control room

  15. Training course for eighteen teachers at CERN

    CERN Multimedia

    Laurianne Noemie Trimoulla

    2015-01-01

    From 8 to 10 December, 18 teachers from all over France attended a three-day training course on matter, organised by the LAMAP Foundation (Fondation La main à la pâte, see here) and hosted by CERN and S'Cool Lab. The LAMAP Foundation, set up by Georges Charpak in 1995, aims to help primary school teachers use the investigative process to instil the scientific spirit in their pupils.      Fired by curiosity and eager to learn, the teachers were introduced to the many and varied activities on offer at CERN, including the cloud chamber experiment, the Masterclass programme and the "Be a physicist" learning scheme. They particularly enjoyed their tours of Microcosm, the Synchrocyclotron and the ATLAS visitor centre, which stimulated many questions. They are eagerly looking forward to passing on their newly found knowledge to their pupils and perhaps even inspiring some to take up a career in physics! Last but not least, they were treat...

  16. Annual report 1975

    International Nuclear Information System (INIS)

    1976-01-01

    The progress report is divided into two parts, for Laboratory I (basic and ISR programmes) and Laboratory II (300-GeV accelerator programme) respectively. In the first part, a general survey is given of the research results achieved in 1975 with the 28-GeV Proton Synchrotron and the Intersecting Storage Rings, as well as of corresponding theoretical and technological developments. More detailed accounts are given under Departmental and Divisional headings - Nuclear Physics, Synchrocyclotron Machine, Track Chambers, Theoretical Studies, Proton Synchrotron Machine, Data Handling, Intersecting Storage Rings, Finance, Personnel, Technical Services and Buildings, Health and Safety, and Central Services. The second part of the report describes the progress with the construction of the 300-400-GeV Super Proton Synchrotron. Organigrams of the Council and the two Laboratories, as well as a brief account of CERN's history, are included. Appendices provide a bibliography of CERN publications in 1975 and lists of lectures and seminars, training programmes, and scientific conferences and schools organized during the year. (AGH/AJ)

  17. CERN’s Summer of Rock

    CERN Multimedia

    Katarina Anthony

    2015-01-01

    When a rock star visits CERN, they don’t just bring their entourage with them. Along for the ride are legions of fans across the world – many of whom may not be the typical CERN audience. In July alone, four big acts paid CERN a visit, sharing their experience with the world: Scorpions, The Script, Kings of Leon and Patti Smith.   @TheScript tweeted: #paleofestival we had the best time! Big love. #CERN (Image: Twitter).   It all started with the Scorpions, the classic rock band whose “Wind of Change” became an anthem in the early 1990s. On 19 July, the band braved the 35-degree heat to tour the CERN site on foot – visiting the Synchrocyclotron and the new Microcosm exhibition. The rockers were very enthusiastic about the research carried out at CERN, and talked about returning in the autumn during their next tour stop. The Scorpions visit Microcosm. Two days later, The Script rolled in. This Irish pop-rock band has been hittin...

  18. "PhD Comics" author Jorge Cham on the power of procrastination

    CERN Multimedia

    Stefania Pandolfi

    2015-01-01

    From Tuesday, 22 to Friday, 25 September, Jorge Cham visited CERN. The PHD Movie 2 was screened in the Main Auditorium  and the cartoonist also took part in one of the Researchers' Night events.    Jorge Cham in the CERN Control Centre. On the first day, the author of the comic strip Piled Higher and Deeper (PhD Comics) visited the CERN Control Centre, the Synchrocyclotron, the CMS Service Cavern and the ATLAS control room. On Thursday, he had a busy afternoon, starting with signing copies of his books and then giving a talk entitled “The Power of Procrastination” in a packed Main Auditorium. He made the audience laugh by narrating his experience as a graduate student in robotics at Stanford University, recounting how he started drawing PhD Comics and how it rapidly became popular in universities all over the world. He then analysed the frustrations and anxieties commonly experienced by any graduate student, causing...

  19. Maria and Giuseppe: lives intertwined with CERN’s history

    CERN Document Server

    Pauline Gagnon

    2014-01-01

    CERN will be celebrating its 60th anniversary this year. That means 60 years of pioneering scientific research and exciting discoveries. Two Italian physicists, Maria and Giuseppe Fidecaro, remember nearly all of it since they arrived in 1956. Most impressively, they are still hard at work, every day!   Giuseppe and Maria Fidecaro in Restaurant No. 1, at CERN, in 2014, 60 years after they joined the Organization. The couple is easy to spot, even in the cafeteria during busy lunchtimes, where they usually engage in the liveliest discussions. “We argue quite a lot,” Maria tells me with a big smile. “We have very different styles.” “But in general, in the end, we agree,” completes Giuseppe. In October 1954, Giuseppe went to the University of Liverpool as a CERN Fellow to do research at its brand new synchrocyclotron. Maria also joined, having obtained a fellowship from the International Federation of University Women. After getting m...

  20. Literature in focus: The history of radioactivity

    CERN Multimedia

    2006-01-01

    René Bimbot, an expert in nuclear physics, will be coming to present his book - The History of Radioactivity. The work provides a summary of our accumulated knowledge of radioactivity and its applications, from its discovery to the present day. Presented in layman's terms, and backed by plenty of illustrations, the work creates the link between the rudimentary knowledge available in the times of Becquerel and the Curies and contemporary physics. It takes us on a great physics adventure, from the nucleus to the quark, from artificial radioactivity to radiotherapy, from the discovery of fission to nuclear reactors, not forgetting dating methods. Finally, the work provides a wealth of practical information on radiation and on matters relating to nuclear waste. A former Research Director at the CNRS, a heavy-ion physicist at the Orsay Nuclear Physics Institute, René Bimbot is no stranger to CERN. At the beginning of the 1980s, he worked on the CERN Synchrocyclotron, before joining the GANIL experiment in 1985...

  1. Frank Krienen (1917-2008)

    CERN Multimedia

    2008-01-01

    Amsterdam, summer 1952: it was here that the first recruits for CERN ‘s 600 MeV Synchrocyclotron project met Frank Krienen for the first time. A young assistant to Prof. C.J. Bakker at the Physics Institute, he soon became the mastermind behind the most daring aspects of the project: the frequency modulating circuit, based on a vibrating tuning fork, was his creation. He was a respected and inspiring leader throughout the construction period of the accelerator and, at the same time, an older brother and an exacting mentor. Frank later devoted himself to developing particle detectors, in particular spark wire chambers using different types of readout. His next major involvement at CERN was his contribution to the glorious g-2 saga. Frank’s contributions to the last experiment of the anomalous magnetic moment of the muon (g-2) done at CERN (1969-1977) were very important in many aspects. The last (g-2) experiment was based on many...

  2. Annual report 1974

    International Nuclear Information System (INIS)

    1975-01-01

    The progress report is divided into two parts, for Laboratory I (basic and ISR programmes) and Laboratory II (300-GeV accelerator programme) respectively. In the first part, a general survey is given of the research results achieved in 1974 with the 28-GeV Proton Synchrotron and the Intersecting Storage Rings, as well as of corresponding theoretical and technological developments. More detailed accounts are given under Departmental and Divisonal headings - Nuclear Physics, Synchrocyclotron Machine, Track Chambers, Theoretical Studies, Proton Synchrotron Machine, Data Handling, Intersecting Storage Rings, Finance, Personnel, Technical Services and Buildings, Health Physics, General Safety, and Central Services. The second part of the report describes the progress with the construction of the 300-400-GeV Super Proton Synchrotron. Organigrams of the Council and the two Laboratories, as well as a brief account of CERN's history, are included. Appendices provide a bibliography of CERN publications in 1974 and lists of lectures and seminars, training programmes, and scientific conferences and schools organized during the year. (AGH/AJ)

  3. Yield of Radionuclides and Isomers Measured in Fragmentation of the ^{nat}W and ^{186}W (97%) Targets with Protons at 630, 420 and 270 MeV

    CERN Document Server

    Karamian, S A; Chaloun, P; Filossofov, D V; Henzl, V; Henzlova, D; Kalinnikov, V G; Korolev, N A; Lebedev, N A; Novgorodov, A F; Collins, C B; Popescu, I I; Ur, C A

    2004-01-01

    Yields and cross sections of the radioactive nuclide formation have been measured via induced activity gamma-spectra after irradiation of the natural composition W and enriched ^{186)W targets at Dubna synchrocyclotron. Spallation and fission products have been represented among the detected nuclides. The high-spin isomers of Hf and Lu were produced and the isomer-to-ground state ratios could be estimated. The nuclide yields have also been calculated using the LAHET code at 6 values of proton energy in the range from 100 to 800 MeV both for ^{nat)W and for enriched ^{186)W targets. Measured isotope yields are generally in agreement with the calculations, however, the code is incapable to predict the isomer-to-ground state ratios. In experiment, it has been shown that the ^{177m}Lu, ^{178m2}Hf and ^{179m2}Hf high-spin isomers are produced with 2.5 times higher yield in the 97% enriched ^{186)W target as compared to the ^{nat)W target at identical irradiations. This makes significance for the creation of high-a...

  4. Excitation functions of pion reactions on 14N, 16O, and 19F through the (3,3) resonance

    International Nuclear Information System (INIS)

    Jacob, N.P. Jr.; Markowitz, S.S.

    1976-01-01

    Cross sections for pion-induced reactions of the form (π,πN) and more complex spallation reactions of the form (π,X) have been measured from 50--550 MeV on the target nuclei 14 N, 16 O, and 19 F using the secondary pion beams at the Lawrence Berkeley Laboratory 184-inch synchrocyclotron and the Clinton P. Anderson Meson Physics Facility. The dominance of the (3,3) free-particle resonance is seen in all excitation functions determined in this work. Relative to the 12 C(π/sup plus-or-minus/,πN) 11 C reactions, the (π/sup plus-or-minus/,πN) reactions on 14 N, 16 O, and 19 F have magnitudes of 0.2, 1, and 0.7, respectively. The cross section ratio R=sigma (π - ,π - n)/sigma (π + ,π N) =1.68+-0.18 for 14 N at 188+-15 MeV, 1.68+-0.05 for 16 O at 188+-9 MeV, and 1.68+-0.03 for 19 F at 178+-2 MeV incident pion energy. The results from this work are compared to previous pion work, analogous proton-induced reactions, Monte Carlo intranuclear cascade-evaporation calculations, and to a semiclassical nucleon charge-exchange model which convincingly explains the (π,πN) reaction mechanism in the (3,3) resonance region

  5. An 80th birthday celebration for the Ericsons

    CERN Multimedia

    CERN Bulletin

    2010-01-01

    A Chinese proverb says that happiness is when friends coming from far and away meet and talk to each other. These wise words could very well be used to sum up the celebrations in honour of the 80th birthdays of Magda and Torleif Ericson, a couple in the normal sense of the word and often also in the field of physics. Torleif joined CERN's Theory Division in 1960, initially to work at the intersection of nuclear and particle physics at the Synchrocyclotron, and retired in 1995.   During the celebratory event on 17 September, speakers reviewed the depth and breadth of the contributions which both Torleif and Magda have made to theoretical physics in general and to nuclear physics in particular. José Bernabeu, Guy Chanfray, Wolfram Wiese, Achim Richter and Anthony Thomas all covered the considerable research that has been stimulated by the Ericson-Ericson correlation(s) over the past 50 years. A concert by the violinist Jean-Philippe Audoli and the pianist Blandine Eynaud and an informal...

  6. Klaus Goebel - 1926-2009

    CERN Multimedia

    Horst Wenninger

    Klaus Goebel, an early leading figure in radiation protection at CERN, passed away on 1 October 2009. Klaus came to CERN in 1956 together with Wolfgang Gentner for whom he had worked as an assistant from 1954-55, after gaining a diploma in economics and a doctorate in physics at the University of Freiburg, Germany. During these early years at the Laboratory, Klaus measured isotope concentrations in meteorites and as leader of the Spallation Research Group he used the Synchrocyclotron (SC) to measure isotope production by protons. This interest in trace measurements carried over to his work in CERN’s Health Physics Group, which he joined in 1962. He took over successively the radiation protection work at the SC and the Proton Synchrotron as section leader and became deputy group leader. In 1969-70 he spent a sabbatical as a health physicist at the Lawrence Radiation Laboratory in Berkeley, California. When Klaus came back to CERN the preparatory work for the construction of the Super Proton Sy...

  7. Present Status and Future Developments in Proton Therapy

    International Nuclear Information System (INIS)

    Smith, Alfred R.

    2009-01-01

    Within the past few years, interest in proton therapy has significantly increased. This interest has been generated by a number of factors including: 1) the reporting of positive clinical results using proton beams; 2) approval of reimbursement for delivery of proton therapy; 3) the success of hospital-based proton therapy centers; and 4) the availability of modern, integrated proton therapy technology for hospital-based facilities. In the United States, this increased interest has occurred particularly at the level of smaller academic hospitals, community medical centers, and large private practices; however, interest from large academic centers continues to be strong. Particular interest exists regarding smaller and less-expensive proton therapy systems, especially the so-called 'single-room' systems. In this paper, the advantages and disadvantages of 1-room proton therapy systems will be discussed. The emphasis on smaller and cheaper proton therapy facilities has also generated interest in new proton-accelerating technologies such as superconducting cyclotrons and synchrocyclotrons, laser acceleration, and dielectric-wall accelerators. Superconducting magnets are also being developed to decrease the size and weight of isocentric gantries. Another important technical development is spot-beam scanning, which offers the ability to deliver intensity-modulated proton treatments (IMPT). IMPT has the potential to provide dose distributions that are superior to those for photon intensity modulation techniques (IMXT) and to improve clinical outcomes for patients undergoing cancer therapy. At the present time, only two facilities--one in Europe and one in the United States--have the ability to deliver IMPT treatments, however, within the next year or two several additional facilities are expected to achieve this capability.

  8. History of CERN. V. 2

    International Nuclear Information System (INIS)

    Hermann, A.; Krige, J.; Mersits, U.; Pestre, D.; Weiss, L.

    1990-01-01

    This volume of the History of CERN starts at 8 October 1954, when the Council of the new organization met for the first time, and takes the history through the mid-1960's. when it was decided to equip the laboratory with a second generation of accelerators and a new Director-General was nominated. It covers the building and the running of the laboratory during these dozen years, it studies the construction and exploitation of the 600 MeV Synchro-cyclotron and the 28 GeV Proton Synchrotron, it considers the setting up of the material and organizational infrastructure which made this possible, and it covers the reigns of four Director-Generals, Felix Bloch, Cornelis Bakker, John Adams and Victor Weisskopf. Part I describes the various aspects which together constitute the history of CERN and aims to offer a synchronic panorama year by year account of CERN's main activities. Part II deals primarily with technological achievements and scientific results and it includes the most technical chapters in the volume. Part III defines how the CERN 'system' functioned, how this science-based organization worked, how it chose, planned and concretely realized its experimental programme on the shop-floor and how it identified the equipment it would need in the long term and organized its relations with the outside world, notably the political world. The concluding Part IV brings out the specificity of CERN, to identify the ways in which it differed from other big science laboratories in the 1950's and 1960's, and to try to understand where its uniqueness and originality lay. (author). refs.; figs.; tabs

  9. Search of the first excited states 0+ of 108Cd and106Cd

    International Nuclear Information System (INIS)

    Roussiere, B.

    1981-01-01

    108 Cd and 106 Cd nuclei have been studied from the β + /EC decay of 108 In and 106 In using the isocele II isotope separator working on-line with the Orsay synchrocyclotron. In order to produce indium nuclei, a molten tin target is irradiated by protons (E = 200 MeV) or 3 He (E = 270 MeV). The comparison of saturation activity measured after mass separation with the one measured before mass-separation has allowed us to determine the average delay-time of indium isotopes and the overall efficiency of the separator. Single γ rays, conversion electrons rays, γ-γ-t and γ-e - -t coincidence measurements have been performed to build level schemes of 108 Cd and 106 Cd. In 108 Cd, the first excited 0 + state has been established unambiguously. This state preferably decays to the 2 2 + and not to the 2 1 + as it does in the even-even neighbouring Cd nuclei. An excited 0 + state is proposed in 106 Cd. These states could not be interpreted as headstate of collective band corresponding to a shape different from the ground state one. On the other hand, the model of G. Alaga (vibrator + two proton holes), as well as the IBA2 F. Iachello one seem to be able to describe the low-lying states properties. Finally, the feeding balance and the deduced log ft values have led us to discuss the possible values of the 108 In and 106 In isomeric state spins [fr

  10. Restoration of the former site of the institute for nuclear physics research in Amsterdam

    International Nuclear Information System (INIS)

    Louwrier, Pieter W.F.; Bakker, C.N.M.; Peperkamp, J.A.M.

    2000-01-01

    In 1946 the Institute for Nuclear Physics Research (IKO) started operations on the site of an old gas factory made available by the City of Amsterdam. In 1997 IKO became part of the National Institute for Nuclear Physics and High-Energy Physics (NIKHEF). In 1996 NIKHEF left the laboratory site after 50 years of occupation. The City of Amsterdam, being the owner of the area, decided that in view of the plants for development of the area, the buildings should be demolished and the area made suitable for public use. The site was used as a nuclear research laboratory since 1946, housing a synchrocyclotron from 1947 to 1977 and a linear electron accelerator from 1968 to 1977. Several nuclear chemistry laboratories were in operation from 1946 to 1984. During the 50-year period the original buildings were modified and enlarged, and new buildings were added. Before the responsibility for the area could be transferred to the City and the operating licence could be adjusted to the new situation the Dutch authorities required that a site restoration project be executed. The site restoration project was planned in stages, each of which was supervised and evaluated by the Dutch Ministry of Housing, Spatial Planning and the Environment, and the Ministry of Social Affairs and Employment. Special interest groups such as Greenpeace, LAKA Foundation (a non-profit organisation acting as a consultant for the neighbouring population), the City of Amsterdam and the local City-Boards were following the process closely. The project encompassed the following stages: Set-up of a plan for the clearance of the building structures, including the criteria for release, in consultation with the ministries involved. Radiation protection was an integral part of the plan. Investigation of possible radioactive contamination of the evacuated buildings. Six undocumented contaminations and one documented contamination were identified. Supervised removal of contaminated building structures by a

  11. From the Discovery of Radioactivity to the First Accelerator Experiments

    Science.gov (United States)

    Walter, Michael

    part of the story ends with first accelerator experiments performed at the Berkeley synchro-cyclotron.

  12. Search for New Physics in a Kaon Decay

    International Nuclear Information System (INIS)

    Depommier, P.

    2009-01-01

    can be detected, its kinetic energy measured, and its (very small) transverse polarization measured by using a special polarimeter. In such an experiment the main problem is the contribution of spurious effects due to the inevitable imperfections of the detector. The elimination of these spurious effects is possible by exploiting symmetries in the conception of the detector and the data analysis. A previous experiment was run at the KEK laboratory, located in Tsukuba, Japon, by using the existing synchrocyclotron and a specially devised detector.

  13. People and things. CERN Courier, Jun 1995, v. 35(4)

    International Nuclear Information System (INIS)

    Anon.

    1995-01-01

    The article reports on achievements of various people, staff changes and position opportunities within the CERN organization and contains news updates on upcoming or past events: Einstein lived here by Abraham Pais: Einstein enthusiasts will be pleased with Abraham Pais' new book 'Einstein lived here', advertised as a companion volume to Pais' classic Einstein biography 'Subtle is the Lord'. (Some of the material also appears in 'Subtle'.) As such the new volume is packed with anecdotes, quotes and other details to delight Einstein admirers and entertain the scientifically literate, but falls short of being a biography. Especially interesting is the background to his Nobel Prize, awarded for his explanation of the photoelectric effect and not for his monumental work on relativity, and the account of his first marriage, to Mileva Marie.; Giorgio Brianti retires: After a 40-year career spanning the whole of CERN's history, Giorgio Brianti retired from the Laboratory at the end of April. As well as having overseen many major projects, Brianti's dedicated work for CERN's next major machine, the LHC, scheduled to become operational in 2004, means his contributions will continue to be evident. Joining the infant Laboratory in 1954, Brianti was initially involved in industrial liaison, a theme to which he subsequently returned. After work on the magnets and then controls and instrumentation for the new PS proton synchrotron, he moved on to operations. In 1964 he became leader of Synchro-Cyclotron (SC) Division, at a time when the SC, CERN's first machine, was being substantially upgraded and its role extended for the ISOLDE on-line isotope separator. In 1967 he took charge of the team building the Booster, a new synchrotron to inject beams into the PS. As well as fulfilling its immediate objective of improving PS performance, the innovative design of the Booster and its astonishing adaptability are still paying

  14. Progress Report 1980-1981. Department of Physics

    International Nuclear Information System (INIS)

    1982-01-01

    start paying off as soon as the first beam becomes usable. Another aspect of general character which is worth mentioning is that both in 1980 and 1981 the series of nuclear physics workshops, started in 1978, continued with an enlarged audience and distinguished speakers. B. Bayman, S. Bjornholm, D.Mc. Hyder, M. Macfarlane and F. Stephens contributed with excellent talks. Within the program for cooperative research managed by the Argentine National Research Council and the U.S. National Science Foundation successful projects were carried out in collaboration with groups of Brookhaven, Ames and Tucson. Other joint efforts were also undertaken with scientists from Rio de Janeiro, Sao Paulo, Santiago de Chile, Tilbingen, Washington D.C., Grenoble, Berkeley, Paris, Strasbourg and local universities in Buenos Aires, La Plata and Tandil. The research output constitutes the main topic of this report and is summarized in the following pages. In general, the activity as a whole has steadily grown in spite of the fact that secondary (but necessary) chores have also multiplied and makes us feel frequently distressed. Adaptation to the new responsibilities ahead is the key. The years of running the old Synchrocyclotron and Cockcroft-Walton accelerator are finished. We now have a very powerful machine becoming operational, which will make possible experiments which up to now were only dreams. It will be our responsibility to make them become reality. It is both a sweet feeling and a heavy burden at the same time, to face this responsibility.