The philosophical significance of Dmitri Mendeleev?s successful predictions of the properties of gallium and scandium vis a vis the acceptance of the Periodic Table 1874?1886 has been debated recently. This author presents evidence that De Boisbaudran and Cleve both respectively predicted the possible existence of gallium and scandium, but on the basis of the old TRIAD methodology. This suggests that these successful Mendeleev predictions were therefore not independent corroboration of the concept of the Periodic System. Instead the significantly independent predictive successes for Mendeleev?s system were (a) the determination of the atomic weight of the known element uranium as 240 instead of the previously accepted 120 in 1874 and (b) the isolation of germanium by Winkler in 1886.

The great influence of the Berthelot's ideas about the non existence of atoms froze the teaching of chemistry in France for quite a long time. It is only after the Second World War that the study of the atom structure appeared in school curricula. The Mendeleev periodic system that sets the relationship between chemical properties and atom structure entered the curriculum even later in 1978. The article shows that the authors of most school manuals had anticipated the change, for in 1966 all the chemistry manuals of the 6. form had a chapter dedicated to the Mendeleev table while the issue was not yet on the syllabus. (A.C.)

The procedure of gas chromatography/mass spectrometry determination in arsine of high purity was described for impurities of permanent gases, carbon dioxide, C1?C5 hydrocarbons, and hydrides of groups 4?6 of Mendeleev?s periodic table of elements. The detection limits of impurities took values from 2 ? 10?5 to 2 ? 10?7 mol %.

Abstract in english A history of the periodic table of the elements is presented, from the first tentative classifications, passing through Meyer and Mendeleev, up to recent speculations on super-heavy elements still to be synthesized. Many of the discussions and discoveries related to chemical elements and their proper periodic classification are also presented.

The Mendeleev periodic table of atoms is one of the most important principles in natural science. However, there is shortage of analog for molecules. Here we propose two periodic tables, one for diatomic molecules and one for triatomic molecules. The form of the molecular periodic tables is analogous to that of Mendeleev periodic table of atoms. In the table, molecules are classified and arranged by their group number G, which is the number of valence electrons, and the periodic number P, which represents the size of the molecules. The basic molecular properties, including bond length, binding energy, force constant, ionization potential, spin multiplicity, chemical reactivity, and bond angle, change periodically within the tables. The periodicities of diatomic and triatomic molecules are ...

The first-order QED corrections for valence electron are investigated for the neutral Ag, Rg and their neighbours of the Mendeleev Periodic Table within the framework of the Dirac-Hartree-Fock method. The including of SE effects in such procedure was done first for superheavy atoms. The obtained results provide the limit of the accuracy for the modern relativistic theoretical calculations for the superheavy elements and open the discussion about the accuracy of the QED corrections in the superheavy elements themselves.

The first-order QED (quantum electrodynamics) corrections for valence electron are investigated for the neutral Ag, Rg and their neighbours of the Mendeleev Periodic Table within the framework of the Dirac-Hartree-Fock method. The including of self-energy effects in such procedure was done first for superheavy atoms. The obtained results provide the limit of the accuracy for the modern relativistic theoretical calculations for the superheavy elements and open the discussion about the accuracy of the QED corrections in the superheavy elements themselves. (authors)

We analyze the connections of Lavoisier system of nomenclature with Leibniz?s philosophy, pointing out to the resemblance between what we call Leibnizian and Lavoisian programs. We argue that Lavoisier?s contribution to chemistry is something more subtle, in so doing we show that the system of nomenclature leads to an algebraic system of chemical sets. We show how D?bereiner and Mendeleev were able to develop this algebraic system and to find new interesting properties for it. We pointed out the resemblances between Leibniz program and Lavoisier legacy, particularly regarding the lingua philosophica for understanding and thinking Nature, in this particular case, chemistry. In the second part we discuss, from the linguistic viewpoint, how Lavoisian algebraic system may be taken further to b...

Information-based materials discovery offers a structured method to evolve materials signatures based upon their physical properties, and to direct searches using performance-based criteria. In this current paper, we focus on the crystal structure aspects of an optical material and construct an information-based model to determine the proclivity of a particular AB composition to exhibit multiple crystal system behavior. Exploratory data methods used both supervised (support-vector machines) and unsupervised (disorder-reduction and principal-component) classification methods for structural signature development; revealing complementary valid signatures. Examination of the relative contributions of the materials chemistry descriptors within these signatures indicates a strong role for Mendeleev number chemistry which must be balanced against the cationic/anionic radius ratio and electronegativity differences of constituents within the unit cell.

revolution in science''. the discovery of uranium, luminescence, photographic development, gas discharge, x rays, radioactivity of thorium, the discovery of the three new elements polonium. radium and actinium, radioactive isotopes and the neutrino. Developments in the study of radioactivity from Becquerel's discovery of the activity of uranium to rather recent nuclear theories. The work of Pierre and Marie Curie including the early work and the period of great discoveries from 1929-1939 with 515 references are discussed. Also discussed are the work of William Ramsey on radioactivity, the study of radioactivity by Russian scientists (Khlopin. Mendeleev, Fersman and others), the discovery of isotopes, the placement of radioelements in the periodic table. and the genetic relations in radioactive decay. Russian experiments on the synthesis and search of heavy transuranic elements in nature. The work on transuranium elements in the USA including the chemistry on the new isotopes of Einsteinium. Fermium. Mendeleevium and Nobelium, and the results of calculations of the stability of superheavy nuclei, the evolution of the idea of islands of relative stabtlity'' for the elements, the discovery and study of the heptavalent state in neptunium and plutonium, and the practical application of the studies on radioactivity in the search for useful minerals are covered. (SJR)

Basic tendencies in the distribution of ferromagnetic (FM), antiferromagnetic (AFM) and superconductive (SC) elements in the periodic table D.I. Mendeleev are traced. FM is observed at the elements in which 3d-shell is more than half-filled (the number of 3d-electrons 6{<=}n{<=}8), and at the elements with 4f-shell, contained k electrons in 4f-shell, at which the sum k+n{>=}8. Estimation of the radii of the d-, f- and p-orbitals on Slater method shown that 3d- and 4f-shells of FM are more pressing, than the ones with smaller n and k+n, and are well separated in crystal. AFM is observed at the elements, at which 3d- or 4f-shells are precisely half-filled. SC is observed in the 3d-, 4d- and 5d-elements at 1{<=}n{<=}x, x grows from 3 in 3d-elements to 7 in 4d- and 5d-elements, and in 7th period only at n=2 and k+n=3. Further, SC is observed at the elements, at which 3p-, 4p-, 5p- and 6p-shells contain no more than 4 electrons. In SC crystals the wave functions of external d- and p-electrons of each atom penetrate inside neighbor atoms and overlap with corresponding wave functions with smaller main quantum number than of central atom. In this case the separation of spin and charge in electron is quite possible and the charges without spin become bosons. Spins obtained magnetic moments are ordered antiparallel by two. At transfer that pair in the parallel state by magnetic field its magnetic flux from magnetic field component along of magnetic field is equal to 1 fluxon (quant of magnetic flux)

Within the framework of a program for checking dosimeter measurements, the Mendeleev VNIIM Scientific Production Association have developed a method of metrological certification for the 27012 dosimeter with 70127 ionization chamber for the absorbed dose of x-radiation in water over the range of effective energies of 9-30 keV. The chamber is certified by using a solid state tissue-equivalent phantom introduced to a 27012 dosimeter complex immersed in water to a depth of 7 mg/cm/sup 2/.

The Arctic Ocean plays an important role in the global climate system. However, due to the major technological and/or logistical problems in reaching this permanently ice-covered region and in retrieving long and undisturbed sediment cores, the knowledge of its short and long term paleoceanographic and paleoclimatic history is still limited. More well-dated and detailed records are needed to study the late Quaternary history of circum-Arctic ice sheets and its relationship to the paleoceanographic circulation pattern in the central Arctic Ocean. In this context, our research is aiming to answer the following key questions: (1) Were extensive late Quaternary circum-Arctic ice sheets developed synchronously or asynchronously in North America, East Siberia, and Eurasia? (2) How is the evolution of circum-Arctic ice sheets related to the paleoceanographic circulation patterns in the central Arctic Ocean, i.e., how did the major surface-water current systems (Beaufort Gyre and Transpolar Drift) evolve and change their extension? For this research project, new sediment cores were recovered during the RV "Polarstern" ARK-XXIII/3 expedition (August-October 2008) along two transects from the Canada Basin across the central Mendeleev Ridge towards the Makarov Basin and the Lomonosov Ridge in the Eurasian Arctic (for background see Stein et al., 2010). Here, we mainly focus on the northern transect along 80°30'N. In all studied sediment cores, Clark's standard lithological units A to M (Clark et al, 1980) could be clearly identified, and the prominent pink-white layers and more sandy intervals are the key sedimentary characteristics used for core correlation and development of a preliminary age model (Stein et al, 2010). According to this age model, the first onset of coarse-grained dolomite-rich material probably occurred during MIS 16. In general, MIS 16, 12, 10, and 8 are characterized by increased dolomite contents and high amount of sand (>63?m) indicating ice-rafted debris (IRD) input from the Laurentide Ice Sheet (LIS). MIS 6, on the other hand, is characterized by low dolomite and high quartz contents, suggesting a different source region for the IRD input. In this poster, new XRD and grain-size data from the coarse-grained intervals related to major glaciations, are presented. These data allow a more detailed reconstruction of past Quaternary glaciations in North America, Siberia, and Eurasia.

...2012-04-01 false Exchange Period Average System Cost determination. 301... § 301.4 Exchange Period Average System Cost determination. (a...will escalate the Base Period average per-MWh cost of Distribution Plant...

We present inorganic geochemical analyses of pore waters and sediments of two Late Quaternary sediment cores from the western Arctic Ocean (southern Mendeleev Ridge, RV Polarstern Expedition ARK-XXIII/3), focussing on the composition and origin of distinct, brown-colored, Mn-rich sediment layers. Carbonate enrichments occur in association with these layers as peaks in Ca/Al, Mg/Al, Sr/Al and Sr/Mg, suggesting enhanced input of both ice-rafted and biogenic carbonate. For the first time, we show that the Mn-rich layers layers are also consistently enriched in the scavenged trace metals Co, Cu, Mo and Ni. Distinct bioturbation patterns, specifically well-defined brown burrows into the underlying sediments, suggest these metal enrichments formed close to the sediment-water interface. The geoch...

A model of a Beddington-DeAngelis type food chain chemostat with periodically varying dilution rate is considered. The system consists of one predator, one prey and limiting substrate. The periodic solutions of the subsystem with substrate and prey, which are the boundary periodic solutions of the system, are obtained. The stability analysis of the boundary periodic solution yields a predator invasion threshold. Above this threshold, there are periodic oscillations in the system. Furthermore, a model with sinusoidal dilution rate is numerically simulated. By bifurcation diagrams with different bifurcation parameters, the periodic system shows two kinds of bifurcations, whose are period-doubling and period-halving.

...during the compliance period, kg. Mc,i = Mass of coating or printing material...system during the compliance period, kg. Mc,i = Mass of coating or printing material...during the compliance period, kg. Mc,i = Mass of dyeing or finishing...

We prove the existence of a Lie algebra of first integrals for time dependent Hamiltonian systems of Lie type. Moreover, applying the Floquet theory for periodic Euler systems on Lie algebras, we show the existence of an abelian Lie algebra of periodic first integrals for periodic Hamiltonian systems. An application to the dynamics of a nonlinear oscillator is given.

A laboratory-scale sequencing batch reactor (SBR) is used to treat landfill leachate containing high concentration of ammonium nitrogen with municipal fecal supernatant. The SBR system is operated in the following sequential phases: fill period, anoxic period, aeration period, settling period, decan...

The Proceedings of the 1989 Workshop are presented in two volumes: volume 1 contains 4 papers on plasma processes and 7 papers on centrifugation. The papers on plasma processes deal with two main methods: ion cyclotron resonance and rotating plasmas. A survey lecture reviews extensively the physics of the two processes, the published experimental results and includes an abundant bibliography of about 200 references. The 3 other papers communicate original and recent experiments carried out by the authors. The plasma process remains as a possible technology to separate stable isotopes and isotopes of metals located in the middle of the Mendeleev Table. Regarding the stable isotopes, the ion cyclotron resonance might be an alternative to the Calutron process. The sessions on centrifugation include 2 review papers by URENCO authors and 5 specialized communications. The review papers take stock of the centrifuge research and gives the current status of the centrifuge technology in URENCO. The authors say that the centrifugation is presently an established industrial and commercial process ready to enter in competition for any new construction of enrichment capacity. Volume 2 contains the papers on 3 topics: basic studies (11 papers), chemical process (2 papers) and laser processes (7 papers). The papers on basic studies include investigations on rotating flows. A special attention is given to studies on convection flows, driven by acceleration field or (and) capillary forces. The interest of convection is obvious, as it has applications in important fields: the hydrodynamics of liquid uranium in the evaporation crucible of AVLIS Process, the crystal growth experiments on earth or under microgravity conditions (future experiments planned in space-labs) and the welding by electron or photon beams. Two papers are presented on the chemical process and both of them are by French authors. The French CEA has, in the past, developed with success the CHEMEX process. The technology was up to the task but the programme was shelved mainly because of lack of demand. Finally, seven papers deal with laser processes. Two of them review the AVLIS program in the UK and one paper gives the status of the MLIS project in West Germany. One communication from China and three papers by French authors deal with specific problems currently met in AVLIS studies, on the vapour beam and the ion extraction. A number of phenomena observed in AVLIS needs satisfactory explanations: the high value of the vapour velocity, the low value of metastables in the vapour beam, the extraction of ions at high density, etc. Session 1: plasma separation (review of isotopic plasma separation processes; production of depleted zirconium using a plasma centrifuge; measurements of isotope separation in a vacuum arc centrifuge). Session 2: plasma separation and centrifugation (recent developments in stable isotope separation by ionic cyclotron resonance; some aspects of the separation of multi-isotope mixtures with gas centrifuges; review paper on centrifuge technology and status of the URENCO centrifuge project; solution of the two-fluid equations for flow in a centrifuge; influence of stationary poles in the central region of gas centrifuges; extension of the analytic sixth order theory; applications of different analytic solutions for the centrifuge flow). Sessions 4 and 5: rotating flows (convection flows driven by centrifugal buoyancy in rapidly rotating systems; experimental investigation of the flow in a rotating pie-shaped cylinder; temperature distribution on rotating spherical shells; centrifugal separation of a suspension in a rotating vessel; spin-up from rest of a suspension - preliminary insight). Session 6: particle fluid mixture (modelling, simulation and comprehension of the flow field of a particles-fluid mixture; the effect of shear and lift on particle-gas separation; on the hydrodynamics of electrolytic refining of metals). Session 7 (calculation of condensation and vibrational relaxation in expanding flows of gas mixture by the second order GODUNOV scheme; thermo-capillary-buoyancy flow of molten metals in a 2D cavity: numerical analysis; influence of a magnetic field on plane shock motion). Session 8: separation by chemical processes (CHEMEX, a French process for isotope separation of uranium by chemical exchange and liquid-liquid extraction: main features and results; some specific problems). Session 9 and 10: laser process (the UK laser isotope enrichment program; some aspects of the UK program; status of the MLIS project in the FRG; measurement of velocity distribution of neutral atoms using LIF; three dimensional free jet flow from a finite length slit; ion extraction and charge exchange in laser separation: a computational approach; space-time evolution of a collisionless plasma between two biased walls.

A food-chain chemostat with periodically pulsed input and washout is presented and analyzed. We prove that when the period of pulses is equal to some critical value, there exists a transcritical bifurcation. When the period is more than the critical value, the zooplankton-free periodic solution loses stability, and nutrient, phytoplankton and zooplankton coexist on a periodic solution of period T. If the period is further increase, the system undergoes a series of period-doubling bifurcations leading to chaos. Moreover, the system is also characterized by non-unique dynamic. Finally, we give a brief discussion and find that periodically pulsed input and washout destroys the equilibria of the unforced continuous system and initiates chaos.

The IAU-defined rotation rate of Jupiter is 9h 55m 29.71s, based on radio measurements of electromagnetic emissions with periodic behavior. Pioneer 10, 11, Voyager 1 and 2, Ulysses, and Galileo measurements of the Jovian magnetic field have found that the magnetic dipole axis is tilted from the rotation axis by close to 10°. The longitude of the dipole has remained almost fixed using the IAU period, confirming the assumption, tacit in the use of the radio waves, that their periodicity is controlled by the rotation of the magnetic field originating deep inside the planet. Using the full suite of magnetic measurements from the 6 spacecraft, we can refine the rotation period to 9h 55m, 29.704 ± 0.003s, which period is within the uncertainty of the IAU definition. This system III period does not order all magnetospheric phenomena, and a system IV period has been introduced to order other periodic phenomenon. No significant dipole tilt is present at Saturn, so we do not presently have a Saturnian system III period, but we do have a period analogous to the Jovian system IV period called the SKR period, a changeable period not locked to the planet. This period is clearly controlled by the interaction of Enceladus with the ionosphere and the magnetospheric plasma. This interaction upsets the centrifugal-centripetal force balance in the corotating plasma by removing angular momentum. A quasi-three-to-one resonance with Enceladus may allow periodic density enhancements to build up, affecting the dynamics of the entire magnetosphere. Returning to Jupiter, we can learn lessons from the Saturn-Enceladus system pertinent to the Io-Jupiter system, where there is a four-to-one quasi-resonance. The System IV period appears to be the jovian equivalent of the saturnian SKR period.

This paper studies systematically a Bedd-ington?DeAngelis prey?predator system with harvesting and impulsive state feedback control. Conditions for existence and stability of predator-free periodic solution are obtained. When the predator-free periodic solution loses its stability, the existence and stability of nontrivial period solution are also established. Furthermore, computer simulations show that this impulsive system displays a series of complex phenomena, including period-doubling bifurcation and cascade, period window, and chaotic bands. Through numerical simulation, it is also observed that capture capability can influence the amount of predator released and the interval of the stability for nontrivial period-1 solution. Moreover, the superiority of impulsive state feedback cont...

We propose to obtain SWP-LO and LWP-LO spectra for all longer-period (p> 2 days) RS CVn systems brighter than mv=9 for which there exist previous X ray observations. This well-selected sample is required to obtain the correlations between chromospheric, transition region and coronal fluxes. These correlations, along with their dependence on spectral type and rotation period, constrain the models of the outer atmospheres of RS CVn's. In conjunction with archived data on the shorter period systems, the new observations of the longer-period systems will provide a database that is large enough to sort out the often-competing effects due to spectral type and rotation period.

It is a typical route to generate chaos via period-doubling bifurcations in some nonlinear systems. In this paper, we propose a new hybrid control strategy in which state feedback and parameter perturbation are used to control the period-doubling bifurcations and to stabilize unstable periodic orbits embedded in the chaotic attractor of a discrete chaotic dynamical system. Simulation shows that the higher stable 2{sup n}-periodic orbit of the system can be controlled to lower stable 2{sup m}-periodic orbits (m<n) by this methods. Some other numerical simulations are also presented to verify the theoretical analysis.

We systematically surveyed period variations of superhumps in SU UMa-type dwarf novae based on newly obtained data and past publications. In many systems, the evolution of superhump period are found to be composed of three distinct stages: early evolutionary stage with a longer superhump period, middle stage with systematically varying periods, final stage with a shorter, stable superhump period. During the middle stage, many systems with superhump periods less than 0.08 d show positive period derivatives. Contrary to the earlier claim, we found no clear evidence for variation of period derivatives between superoutburst of the same object. We present an interpretation that the lengthening of the superhump period is a result of outward propagation of the eccentricity wave and is limited by the radius near the tidal truncation. We interprete that late stage superhumps are rejuvenized excitation of 3:1 resonance when the superhumps in the outer disk is effectively quenched. Many of WZ Sge-type dwarf novae showed...

Based on one-dimensional single-electron infinite periodic models of trans-polyacetylene, we show analytically that the overall permutation symmetry of nonlinear optical susceptibilities is, although preserved in bound-state molecular systems, no longer generally held in periodic systems. The overall permutation symmetry breakdown provides a natural explanation of the widely observed large deviations of Kleinman symmetry in off-resonant regions of periodic systems. Finally, physical conditions to experimentally test the overall permutation symmetry breakdown are discussed.

State-feedback model predictive control (MPC) of discrete-time linear periodic systems with time-dependent state and input dimensions is considered. The states and inputs are subject to periodically time-dependent, hard, convex, polyhedral constraints. First, periodic controlled and positively invar...

Verification testing of the Ionics UF-1-7T Filtrafiltration membrane system was conducted over two test periods at the Aqua 2000 Research Center in Escondido, CA. The first test period, from 12/7/99-1/11/00, represented winter conditions. The second test period, from 3/6/00-4/6/...

The results of plasma equilibrium and local stability investigations in two and four-period quasisymmetric stellarators are presented. A near-axis approximation is used for 2-period systems and the 3D codes VMEC and TERPSICHORE are used for four-periods devices to optimise the configurations. (author) 4 figs., 8 refs.

Pioneer 10, 11, Voyager 1 and 2, Ulysses, and Galileo measurements of the Jovian magnetic field have found that the magnetic dipole axis is tilted from the rotation axis by close to 10°. The longitude of the dipole has remained almost fixed using the IAU 1965 period, confirming the assumption, tacit in the use of the radio waves, that their periodicity is controlled by the rotation of the magnetic field originating deep inside the planet. Using the full suite of magnetic measurements from the 6 spacecraft, we can refine the rotation period to 9h 55m, 29.704 ± 0.003s, which period is within the uncertainty of the IAU definition. This system III period does not order all magnetospheric phenomena, and a system IV period has been introduced to order other periodic phenomenon. System IV measures the rotation of the magnetospheric plasma which slips with respect to the ionosphere and the planetary interior. No significant dipole tilt is present at Saturn, so we do not presently have an IAU-defined Saturnian system III period, but we do have a period analogous to the jovian system IV period called the SKR period, a variable period not locked to the planet. This period is clearly controlled by the interaction of Enceladus with the ionosphere and the magnetospheric plasma. This interaction upsets the centrifugal-centripetal force balance in the corotating plasma by removing angular momentum. A quasi-three-to-one resonance with Enceladus may allow periodic density enhancements to build up, affecting the dynamics of the entire magnetosphere. Returning to Jupiter, we can learn lessons from the Saturn-Enceladus system pertinent to the Io-Jupiter system, where there is a four-to-one quasi-resonance. The behavior of these two rotating giant magnetospheres is thus qualitatively similar despite the large difference in the tilt of the dipole axes.

In this paper, we introduce and study a model of a Monod-Haldene type food chain chemostat with periodically varying substrate. We investigate the subsystem with substrate and prey and study the stability of the periodic solutions, which are the boundary periodic solutions of the system. The stability analysis of the boundary periodic solution yields an invasion threshold. By use of standard techniques of bifurcation theory, we prove that above this threshold there are periodic oscillations in substrate, prey and predator. Furthermore, we numerically simulate a model with sinusoidal input, by comparing bifurcation diagrams with different bifurcation parameters, we can see that the periodic system shows two kinds of bifurcations, whose are period-doubling and period-halfing.

The early B supergiant LMC star BI 108 is photometrically variable with a unique light curve; two strong periods are present in an almost precise 3:2 resonance. We collected spectroscopic data at VLT/UVES, sampling the supercycle of 10.733 days in ten epochs. We find spectral signatures for a SB2 system consisting of two massive B1 supergiants orbiting at the orbital period of 5.366 days. The shorter periodicity resembles the light curve of an eclipsing binary with periodicity 3.578 days that is not detected in the data. We discuss possible causes for the short periodicity and conclude that the quadruple system is the more plausible hypothesis.

In order to reveal the correlations between the arthropod communities in two sub-systems (jujube yard and grain field) of jujube-grain intercropping system, an investigation was conducted on the composition and time series dynamics of the communities in the two sub-systems. A total of 14 936 arthropod individuals belonging to 14 orders and 96 families were found, among which, 5992 individuals of 14 orders and 82 families were in jujube yard and 8971 of 14 orders and 80 families were in grain field, and some differences were observed in the arthropod community structure between the two sub-systems. The time series dynamics of the arthropod communities could be divided into four periods, according to the optimal cut-apart of time series, i.e., decline period in grain field sub-system, species number increase period in whole system, steady period in whole system, and decline period in whole system. The primary natural enemies in the system showed a characteristic of transferring between the two sub-systems in the four periods, and the parasitical natural enemies in a sub-system could impact the pest insects in another sub-system. The species transferring and mutual effect of the arthropod communities between the two sub-systems could benefit the stability of the jujube-grain intercropping system, and the capability of the system in controlling pest insects. PMID:19288730

Tidal processes are capable of producing bedding that records individual tidal events; however, only within the last decade have tidal cycles, such as neap-spring periodicities become widely recognized. Such cycles have been documented within thinly laminated, vertically accreted siltstones. The laminae exhibit systematic patterns of thickening and thinning that have been equated to the lunar orbital period (synodic month). However, modem tides are subject to periodicities other than the synodic month and such additional periods can be the causative mechanism for neap-spring tidal periods. Gravitational interactions of the earth, moon, and sun generate tides that fluctuate with periods that correspond to the phases of the moon (synodic month), declination of the moon (tropical month), and distance of the moon from the earth (anomalistic month). Although harmonic analyses of semidiurnal tidal data indicate that such systems are controlled by synodic factors, there are also indications that diurnal systems can be controlled by tropical factors. Thus neap-spring periods are not only related to lunar phase (synodic month), but can be related to tropical month (lunar declination) in diurnal systems. Analysis of laminae-thickness periodicities in a variety of Pennsylvanian tidal rhythmites, which include apparent examples of diurnal as well as semidiurnal tidal patterns, indicates similarities to modern tidal systems. For example, semidiurnal tidal rhythmites exhibit not only synodic periodicities but also exhibit a weaker, tropical periodicity. Conversely, within rhythmites that exhibit a diurnal pattern, it is not completely clear whether tropical or synodic periodicities are being expressed.

Consider a system operating over n discrete time periods (n=1, 2, ...). Each operation period causes a random amount of damage to the system which accumulates over time periods. The system fails when the cumulative damage exceeds a failure level @z and a corrective maintenance (CM) action is immediately taken. To prevent such a failure, a preventive maintenance (PM) may be performed. In an operation period without a CM or PM, a regular maintenance (RM) is conducted at the end of that period to maintain the operation of the system. We propose a maintenance policy which prescribes a PM when the accumulated damage exceeds a pre-specified level @d (<@z), or when the number of operation periods reaches N, whichever comes first. With the long-term average cost rate as an optimality criterion, we...

The moored ship motion induced by the long-period waves causes troubles in the cargo handling before the completion of the breakwater at Misato district in Kochi port. The Takamatsu Research and Engineering office for Port and Airport has developed "Long-period wave forecasting system of Kochi port" to predict the long-period waves, which affect the cargo handling. To promote the accuracy of the prediction the system introduces the disaster prevention information of the Japan Meteorological Agency and accepts the opinion of cargo handling traders. A result of the test run could confirm the validity of the system in the long-period wave forecast.   

We analyze a common feature of a nontrivial fractional flux periodicity in two-dimensional systems. We demonstrate that an addition of fractional flux can be absorbed into re-parameterization of quantum numbers. For an exact fractional periodicity, all the electronic states undergo the re-parameterization, whereas for an approximate periodicity valid in a large system, only the states near the Fermi level are involved in the re-parameterization.   

Sharkovskii proved that the existence of a periodic orbit in a one-dimensional dynamical system implies existence of infinitely many periodic orbits. We obtain an analog of Sharkovskii's theorem for periodic orbits of shear homeomorphisms of the torus. This is done by obtaining a dynamical order relation on the set of simple orbits and simple pairs. We then use this order relation for a global analysis for a quantum chaotic physical system called the kicked accelerated particle.

control system. Command module primary guidance, navigation, and ... system reliability was to provide standby redundancy in the form of onboard spares. At the time .... Periodically establish an inertial reference used for measurements and ...

25 Shape Memory Alloy-Based Periodic Cellular .... corrosion of nickel-based superalloy turbine disks ... The key Phase 1 innovations included enhanced ..... system) data of a system, determines if a fault is manifesting, and if true, determines ...

...Administration Georgia-Alabama-South Carolina System of Projects AGENCY: Southeastern...schedules for the Georgia-Alabama-South Carolina System for a five-year period...forum for the Georgia-Alabama-South Carolina customers and interested...

We will show that if a dynamical system has enough constants of motion then a Moser-Weinstein type theorem can be applied for proving the existence of periodic orbits in the case when the linearized system is degenerate.

We systematically surveyed period variations of superhumps in SU UMa-type dwarf novae based on newly obtained data and past publications. In many systems, the evolution of the superhump period is found to be composed of three distinct stages: an early evolutionary stage with a longer superhump period, a middle stage with systematically varying periods, and a final stage with a shorter, stable superhump period. During the middle stage, many systems with superhump periods of less than 0.08 d show positive period derivatives. We present observational characteristics of these stages and give greatly improved statistics. Contrary to an earlier claim, we found no clear evidence for a variation of period derivatives among different superoutbursts of the same object. We present an interpretation that the lengthening of the superhump period is a result of the outward propagation of an eccentricity wave, which is limited by the radius near the tidal truncation. We interpret that late-stage superhumps are rejuvenated excitation of a 3:1 resonance when superhumps in the outer disk are effectively quenched. The general behavior of the period variation, particularly in systems with short orbital periods, appears to follow a scenario proposed in Kato, Maehara, and Monard (2008, PASJ, 60, L23). We also present an observational summary of WZ Sge-type dwarf novae. Many of them have shown long-enduring superhumps during a post-superoutburst stage having longer periods than those during the main superoutburst. The period derivatives in WZ Sge-type dwarf novae are found to be strongly correlated with the fractional superhump excess, or consequently with the mass ratio. WZ Sge-type dwarf novae with a long-lasting rebrightening or with multiple rebrightenings tend to have smaller period derivatives, and are excellent candidates for those systems around or after the period minimum of evolution of cataclysmic variables.

For multitype branching processes with immigration evolving in a random environment and producing a final product we find the tail distribution of the size of the final product accumulated in the system for a life period. Using this result we investigate the tail distribution of the busy periods of the branching type polling systems with random service disciplines and random positive switch-over times

This paper is concerned with the existence, uniqueness and time-asymptotic stability of time periodic solutions to the compressible Navier-Stokes-Korteweg system effected by a time periodic external force in $\\mathbb{R}^n$. Our analysis is based on a combination of the energy method and the time decay estimates of solutions to the linearized system.

A solution for an initial value problem of the box and ball system is constructed from a solution of the periodic box and ball system. The construction is done through a specific limiting process based on the theory of tropical geometry. This method gives a tropical analogue of the Krichever construction, which is an algebro-geometric method to construct exact solutions to integrable systems, for the non-periodic system.

The Large Hadron Collider (LHC) cryogenic system was progressively and successfully run for the LHC accelerator operation period starting from autumn 2009. The paper recalls the cryogenic system architecture and main operation principles. The system stability during magnets powering and availability periods for high energy beams with first collisions at 3.5 TeV are presented. Treatment of typical problems, weak points of the system and foreseen future consolidations will be discussed.

In this paper, we introduce and study a model of a Monod type food chain chemostat with pulsed input and washout. We investigate the subsystem with substrate and prey and study the stability of the periodic solutions, which are the boundary periodic solutions of the system. The stability analysis of the boundary periodic solution yields an invasion threshold. By use of standard techniques of bifurcation theory, we prove that above this threshold there are periodic oscillations in substrate, prey and predator. Simple cycles may give way to chaos in a cascade of period-doubling bifurcations. Furthermore, by comparing bifurcation diagrams with different bifurcation parameters, we can see that the impulsive system shows two kinds of bifurcations, whose are period-doubling and period-halving.

In this paper, we introduce and study a model of a Tessiet type food chain chemostat with pulsed input and washout. We investigate the subsystem with substrate and prey and study the stability of the periodic solutions, which are the boundary periodic solutions of the system. The stability analysis of the boundary periodic solution yields an invasion threshold. By use of standard techniques of bifurcation theory, we prove that above this threshold there are periodic oscillations in substrate, prey and predator. Simple cycles may give way to chaos in a cascade of period-doubling bifurcations. Furthermore, by comparing bifurcation diagrams with different bifurcation parameters, we can see that the impulsive system shows two kinds of bifurcations, whose are period doubling and period halving.

In this paper, the dynamic behaviors of a two-prey two-predator system with impulsive effect on the predator of fixed moment are investigated. By applying the Floquet theory of liner periodic impulsive equation, we show that there exists a globally asymptotically stable two-prey eradication periodic solution when the impulsive period is less than some critical value. Further, we prove that the system is permanent if the impulsive period is large than some critical value, and meanwhile the conditions for the extinction of one of the two prey and permanence of the remaining three species are given. Finally, numerical simulation shows that there exists a stable positive periodic solution with a maximum value no larger than a given level. Thus, we can use the stability of the positive periodic solution and its period to control insect pests at acceptably low levels.

The reliability data management system (RDMS) for safety systems of PHWR type plants has been developed and utilized in the reliability analysis of the special safety systems of Wolsong Unit 1,2 with plant overhaul period lengthened. The RDMS is developed for the periodic efficient reliability analysis of the safety systems of Wolsong Unit 1,2. In addition, this system provides the function of analyzing the effects on safety system unavailability if the test period of a test procedure changes as well as the function of optimizing the test periods of safety-related test procedures. The RDMS can be utilized in handling the requests of the regulatory institute actively with regard to the reliability validation of safety systems. (author)

While there has been great effort to establish universal behavior of the sequence of period-doubling bifurcation in Hamiltonian systems with few degrees of freedom, the nature of the period-doubling bifurcation is far more complicated in two-dimensional maps. Though the onset of instability is determined by a local, linear property of the system, the area of a bifurcated region in the phase space increases gradually when the control parameter increases beyond the critical threshold. Scaling laws for the growth process of the period-doubling bifurcation are elucidated for the period-2 step-1 accelerator mode and for the fundamental fixed orbit in the standard map.   

To some extent, the multi-level dynamics of an atmosphere system implies temporal structures in time-varying climate data. Here the multi-period issue of temperature data is studied. Since the scale parameter of wavelets is not easily understandable, the relationship between time period and time scale is formulated in Morelet wavelet. Unlike overall multi-period and -frequency information in Fourier analysis, wavelets analysis provides us with local multi-period information. At Changchun meteorological station, our experimental dataset are daily temperature measurements from 1951 to 2005. After a wavelet transform of climate dataset, modes and real parts of wavelets coefficients are drawn for visually exploring local multi-period information. In particular, it is seen that the time periods of 1 year, 3 to 4 years are globally apparent, and the time period of 8 to 12 years is locally apparent. For the temperature, there is an overall trend of colder and warmer interchanging time periods, i.e., a colder period before the middle 1980s and a warmer period from the middle 1980s to present. These two time periods are further divided into four cold periods and three warm periods respectively. In a large time period, 1987 is the year of abrupt temperature change. In a middle time period, 1970 is the year of abrupt temperature change. In the time period of year, there exist specific years of abrupt temperature change. In our framework of spatiotemporal data mining, these local multiple periods are used for creating multi-level spatiotemporal meteorological association rules. It is proved that the Morelet wavelet is feasible for exploring temporal structures in climate data.

This paper deals with a two-degree-of-freedom forced system composed of a main system and an impact damper which has been analyzed by many researchers. Periodic solutions, bifurcations, chaos, and vibration quenching are discussed. A shooting method for impact systems presented by authors is used in numerical calculations. The following results were obtained: (1) Unsynmetric periodic solution with four collisions per period and subharmonic vibrations with many collisions were found. (2) Discontinuities in the stability of the periodic solutions caused by impact were shown using characteristic multipliers. (3) Two routes to chaos were found, namely, the period doubling route and the torus doubling route. (4) Hyper chaos was found for the first time in the impact damper system. (5) The vibration quenching problems for the narrow frequency region near the resonance point and for the wide frequency region were discussed.   

This paper explores patterns of transformation of socialist Science and Technology (S&T) systems into post-socialist systems of innovation and their determinants. First, we reinterpret the socialist period from a system of innovation perspective by revisiting the socialist S&T system, and by pointin...

The classical invariants of a Hamiltonian system are expected to be derivable from the respective quantum spectrum. In fact, semiclassical expressions relate periodic orbits with eigenfunctions and eigenenergies of classical chaotic systems. Based on trace formulae, we construct smooth functions highly localized in the neighborhood of periodic orbits using only quantum information. Those functions show how classical hyperbolic structures emerge from quantum mechanics in chaotic systems. Finally, we discuss the proper quantum-classical link.

This document details progress on the project ''Effective Conveyor Belt Inspection for Improved Mining Productivity'' during the period from May 15, 2006 to November 14, 2006. Progress during this period includes significant advances in development of a Smart Camera based prototype system for on-site mechanical splice detection, and continued deployment of both the mechanical splice detection system and the vulcanized splice detection system in area coal mines.

Under consideration in this paper is a variable-coefficient generalized Boussinesq system for the long weakly-nonlinear and weakly-dispersive surface waves in shallow water. With the aid of symbolic computation, N-fold Darboux transformation (N-DT) is constructed for that system. Analytic solutions of the system are obtained via the N-DT. Elastic interactions of three bell-shaped and periodic bell-shaped solitons are obtained. Fusion interactions and periodic fusion-fission interactions of the solitary waves are graphically analyzed, which are inelastic.

The properties of the soliton and periodic wave solutions of a nonlocal nonlinear Schrödinger equation for envelope waves are investigated by the pole expansion method. For both solutions, the dynamics of the poles are shown to be described by the first-order systems of nonlinear ordinary differential equations (ODEs). A significant result reported here is that in the case of solitons, the system is reducible to the Calogero-Moser dynamical system whereas in the case of periodic waves, the corresponding system is found to be the Calogero-Moser-Sutherland dynamical system. We then establish a purely algebraic method for solving the first-order systems of ODEs and prove their complete integrability.   

The historical development of Japanese Universities can be divided into the following 5 periods: Period 1 (1868-1918); Period 2 (1918-1945); Period 3 (1945-1991); Period 4 (1991-2004); and Period 5 (2004- Present). The developmental processes of the higher agricultural education system in each period are described in the present manuscript. Furthermore, analysis of the undergraduate curriculum between 1983-2007 has been conducted using Ag-Base, a database created at the Agricultural and Forestry Research Center, University of Tsukuba. The Ag-Base covers all 581,991 lecture courses offered at 53 agricultural universities in Japan between 1983-2007. Results of the analysis using Ag-Base showed clear changes in the curriculum structure at agricultural universities in Japan during the past 15 years.   

A dilution cycle control system for an absorption refrigeration system is disclosed. The control system includes a time delay relay for sensing shutdown of the absorption refrigeration system and for generating a control signal only after expiration of a preselected time period measured from the sensed shutdown of the absorption refrigeration system, during which the absorption refrigeration system is not restarted. A dilution cycle for the absorption refrigeration system is initiated in response to generation of a control signal by the time delay relay. This control system is particularly suitable for use with an absorption refrigeration system which is frequently cycled on and off since the time delay provided by the control system prevents needless dilution of the absorption refrigeration system when the system is turned off for only a short period of time and then is turned back on.

Speech analyzing in special periods of time has been presented in this paper. One of the most important periods in signal processing is near to Zero. By this paper, we analyze noise speech signals when these signals are near to Zero. Our strategy is defining some subfunctions and compress histograms when a noise speech signal is in a special period. It can be so useful for wavelet signal processing and spoken systems analyzing.

The phenomenology of a system of two coupled quadratic maps is studied both analytically and numerically. Conditions for synchronization are given and the bifurcations of periodic orbits from this regime are identified. In addition, we show that an arbitrarily large number of distinct stable periodic orbits may be obtained when the maps parameter is at the Feigenbaum period-doubling accumulation point. An estimate is given for the coupling strength needed to obtain any given number of stable orbits.

In this work, we demonstrate the open-loop control of chaotic systems by means of optimized periodic signals. The use of such signals enables us to reduce control power significantly in comparison to simple harmonic perturbations. It is found that the stabilized periodic dynamics can be changed by small, specific alterations of the control signal. Thus, low power switching between different periodic states can be achieved without feedback. The robustness of the proposed control method against noise is discussed.

This study mathematically analyzes an interrupted dynamical system (IDS) with a periodic threshold. First, we describe a simple IDS, which is dependent on its own state and a periodic interval, and explain the behavior of the waveform. Then, we define the discrete map (return map) of the system and calculate the bifurcation diagrams. Finally, we focus on the dynamical structure of the return map in the system with a periodic threshold and discuss the stabilizing mechanism, especially its effect in a wide parameter space. The stabilizing effect is verified by the laboratory experiment.   

This paper introduces the \\textit{truncator} map as a dynamical system on the space of configurations of an interacting particle system. We represent the symbolic dynamics generated by this system as a non-commutative algebra and classify its periodic orbits using properties of endomorphisms of the resulting algebraic structure. A stochastic model is constructed on these endomorphisms, which leads to the classification of the distribution of periodic orbits for random truncator maps. This framework is applied to investigate the periodic transitions of Bornholdt's spin market model.

A laboratory-scale sequencing batch reactor (SBR) is used to treat landfill leachate containing high concentration of ammonium nitrogen with municipal fecal supernatant. The SBR system is operated in the following sequential phases: fill period, anoxic period, aeration period, settling period, decant and idle period. The results indicated that the average removal efficiencies of COD, BOD5, TN,NH4 +-N were 93.76%, 98.28%, 84.74% and 99.21%, respectively. The average sludge removal loading rates of COD, BOD5, TN and NH4 +-N were 0.24 kg/(kg SS·d), 0.08 kg/(kg SS·d), 0.04 kg/(kg SS·d) and 0.036 kg/(kg SS·d), respectively. Highly effective simultaneous nitrification and denitrification was achieved in the SBR system. The ratio of nitrification and denitrification was 99% and 84%, respectively. There was partial NO2 ? denitrification in the system.

The period-doubling transition to chaos along the edge of an Arnold tongue is known to display unusual organization and scaling behavior (Kuznetsov et al. (2005) [7]). It is also known that forced period-doubling systems may be associated with the appearance of so-called period-doubled tori (Arneodo et al. (1983) [15]). Using the Rössler system as an example, we present a detailed analysis of the bifurcation structure associated with the forcing of a three-dimensional period-doubling system. We explain how this structure is related to the recently discovered phenomenon of multi-layered tori and discuss different bifurcation scenarios that transform a resonance torus into a period-doubled ergodic torus. Similar bifurcation phenomena have recently been observed in a biologically relevant model of kidney blood flow regulation in response to fluctuations in arterial pressure.

The analytic expressions of peaked solitary wave solutions and peaked periodic wave solutions of Camassa-Holm equation are obtained by using bifurcation method of planar dynamical systems. The convergence of the peaked periodic wave solutions is proved. Numerical simulation results show the consistence with the theoretical analysis. The results in this paper are wider than those already known.

Using Floquet-Lyapunov theory, it is shown that for Baire-almost every periodic potential the Dirac system has all its instability intervals open. Consequently, one-dimensional Dirac operators with periodic potentials generically posses infinitely many spectral gaps. These results also hold true if only even potentials are admitted. (orig.).

In this paper we discuss a non-autonomous two species competitive allelopathic phytoplankton model in which both species are producing chemical which stimulate the growth of each other. We have studied the existence and uniqueness of an almost periodic solution for the concerned model system. Sufficient conditions are derived for the existence of a unique almost periodic solution.

We review and generalize the recent progress in a soliton cellular automaton known as the periodic box-ball system. It has the extended affine Weyl group symmetry and admits the commuting transfer matrix method and the Bethe ansatz at q=0. Explicit formulas are proposed for the dynamical period and the number of states characterized by conserved quantities.

Verification testing of the Hydranautics HYDRA Cap(TM) Ultrafiltration Membrane System (Hydranautics UF unit) was conducted over two test periods at the Aqua 2000 Research Center in San Diego, CA. The first test period, from 8/3/99-9/13/99, represented summer/fall conditions. The...

New results are proved on the maximum number of isolated T-periodic solutions (limit cycles) of a first order polynomial differential equation with periodic coefficients. The exponents of the polynomial may be negative. The results are compared with the available literature and applied to a class of polynomial systems on the cylinder.

We study travelling waves on a two--dimensional lattice with linear and nonlinear coupling between nearest particles and a periodic nonlinear substrate potential. Such a discrete system can model molecules adsorbed on a substrate crystal surface. We show the existence of both uniform sliding states and periodic travelling waves as well in a two-dimensional sine-Gordon lattice equation using topological and variational methods.

Congenital abnormalities of the portal venous system are rare. There are few radiological descriptions of intrahepatic portosystemic venous shunt detected in the perinatal period. We report a congenital portosystemic shunt that was detected by US and treated with coil embolisation in the neonatal period. (orig.)

This paper is devoted to the computation of nonlinear dynamic steady-state solutions of autonomous systems subjected to multi-instabilities and proposes a new nonlinear method for predicting periodic and quasi-periodic solutions intended for application to the disc brake squeal phenomenon. Firstly, ...

We study the control of transport properties in a deterministic inertia ratchet system via the extended delay feedback method. A chaotic current of a deterministic inertia ratchet system is controlled to a regular current by stabilizing unstable periodic orbits embedded in a chaotic attractor of the unperturbed system. By selecting an unstable periodic orbit, which has a desired transport property, and stabilizing it via the extended delay feedback method, we can control transport properties of the deterministic inertia ratchet system. Also, we show that the extended delay feedback method can be utilized for separation of particles in the deterministic inertia ratchet system as a particle's initial condition varies.

The concept of critical or sensitive periods in child development provides an example around which to organize discussion of what is known and not known about brain development and the implications of brain science on early childhood policy and practice. This book reviews the early history of critical periods and evidence for their existence in various domains of human cognition and learning, including basic sensory systems, social and emotional development, and language learning and acquisition. The book concludes with a section on the relevance of critical periods for early intervention. The chapters are: (1) "A Critical and Sensitive Period Primer" (John T. Bruer); (2) "Developmental Neurobiology Overview: Synapses, Circuits, and Plasticity" (Jeff W. Lichtman); (3) "Critical Periods in the Development of the Visual System" (Jonathan C. Horton); (4) "Critical Periods for Development of Visual Acuity, Depth Perception, and Eye Tracking" (Lawrence Tychsen); (5) "Sensitive Periods in Attachment?" (Ross A. Thompson); (6) "Animal Models of Critical and Sensitive Periods in Social and Emotional Development" (Maria L. Boccia and Cort Pedersen); (7) "Social and Emotional Development in Children Adopted from Institutions" (Elinor W. Ames and Kim Chisholm); (8) "Language Processing: How Experience Affects Brain Organization" (Helen J. Neville and John T. Bruer); (9) "Sensitive Periods in First Language Acquisition" (Heather Bortfeld and Grover J. Whitehurst); (10) "A Critical Period for Second Language Acquisition?" (Kenji Hakuta); (11) "The Subtle Science of How Experience Affects the Brain" (John T. Bruer and William T. Greenough); (12) "Critical Periods and Early Intervention" (Dale C. Farran); (13) "The Concept of Critical Periods and Their Implications for Early Childhood Services" (Robert B. McCall and Bradford W. Plemons); and (14) "Critical Periods: Reflections and Future Directions" (Donald B. Bailey, Jr. and Frank J. Symons). All but one chapter contain references. (KB)

The canonical quantization of any hyperbolic symplectomorphism A of the 2-torus yields a periodic unitary operator on a N-dimensional Hilbert space, N = 1/h. We prove that this quantum system becomes ergodic and mixing at the classical limit (N {yields} {proportional_to}, N prime) which can be interchanged with the time-average limit. The recovery of the stochastic behaviour out of a periodic one is based on the same mechanism under which the uniform distribution of the classical periodic orbits reproduces the Lebesgue measure: the Wigner functions of the eigenstates, supported on the classical periodic orbits, are indeed proved to become uniformly spread in phase space. (orig.)

Abstract We consider a fully developed time-periodic pipe flow (Poiseuille flow) for some classes of fluids (micropolar fluids, mixtures of fluids). Such physical cases lead to a parabolic system in which the pressure gradient ? is a time-periodic function with either only one non vanishing component or the components proportional to a single time-periodic function ?. For such situations we generalize the results of [7] concerning the Newtonian case. Keywords: Flow in a pipe, Time-periodic Poiseuille flow, Micropolar fluids, Mixtures of fluids Mathematics Subject Classification (2000): 76D03, 76A05, 76T05, 35Q30

The focus of the study described in this report has been to perform numerical simulations of the geosphere from post-closure and throughout the temperate period up until the beginning of the next permafrost period at around 20,000 AD for the Laxemar area. Together with providing quantitative results for the immediate temperate period following post-closure, these results are also intended to give a qualitative indication of the evolution of the groundwater system during future temperate periods within an ongoing cycle of glacial/inter-glacial events.

We calculate semiclassically the energy-averaged local probability density of a wave function inside a weakly-open quantum dot in Coulomb blockade regime. We assume that the a clean cavity is connected to a large reservoir of electrons via one tunneling barrier. We show that scars should be observed at points on/near classical periodic orbits that are well coupled to the tunneling barrier. In particular, for a sufficiently small variation of systems parameters, scarring of a periodic orbit should recur, with a recurrence period corresponding to the properties of the periodic orbit.   

Although hydrogen in external fields is a paradigm for the application of periodic orbits and the Gutzwiller trace formula to a real system, the trace formula has never been applied successfully to other Rydberg atoms. We show that spectral fluctuations of general Rydberg atoms are given with remarkable precision by the addition of diffractive terms. Previously unknown features in atomic spectra are exposed: there are new modulations that are neither periodic orbits nor combinations of periodic orbits; `core-shadowing' generally decreases primitive periodic orbit amplitudes but can also lead to increases.

detection, and separation systems. It is concluded .... ped argon and hydrogen are released in an ion getter pump when nit- rogen is ... be kept for long periods ( days) in the proton accumulators and also the beam .... in semi-conductors.

Progress is reported for the period January 1980 through January 1983 in the following project areas: (1) imaging systems in nuclear medicine and image evaluation; and (2) methodology for quantitative evaluation of diagnostic performance. (ACR)

Properly designed fiber optic transmission systems will last for long periods of time ... Because optical cables carry no current they are safe to use in explosive ... either a light-emitting diode (LED) or laser diode, does the actual conversion.

Problem/Condition: Since 1971, the Centers for Disease Control and Prevention (CDC), the U.S. Environmental Protection Agency, and the Council of State and Territorial Epidemiologists have maintained a collaborative surveillance system for collecting and periodically reporting da...

Research Center by the AiResearch Manufacturing Company, Los Angeles,. California. ... the Fuel System Development for the period of 20 September through ..... changes for the existing valves, to complete the layout and details for the ...

Jan 4, 2012 ... Background: Thermophoresis, thermodiffusion, or Soret effect (or ... new round of periodic preventive maintenance of RS ventilation systems, today first working ... Flow velocity changes in the aorta and the middle cerebral and ...

Infinite--dimesional, discrete hamiltonian systems of the type kinetic energy + potential energy over ${\\Bbb R}^{{\\Bbb Z}}\\times {\\Bbb T}^{{\\Bbb Z}}$ are studied. The existence of many quasi--periodic motions with a maximal set of nonzero frequencies is shown

...processing system, EPA retains the...Identification of Plan section, previously...first or second section of part 52 for each state...two-year period, EPA will review...on 11/21/ Section 3708. Combustion...CFR 3538. 52.1490(c...Table...

propellant feed system and the normal periodic heat release of the reacting propellants. The concern ..... are adequately extended). • Ground .... budget and schedule to assure successful formulation of a verification program. With these ...

For polynomials and rational maps of fixed degree over a finite field, we bound both the average number of connected components of their functional graphs as well as the average number of periodic points of their associated dynamical systems.

Phase equations describing the evolution of large scale modulation of spatially periodic patterns in two dimensional systems are derived by employing the renormalization group method. A general formula for phase diffusion coefficients is given under certain conditions.

The development of the PDP-11/10 computer system, used for the measurement of body radioactivity, during a period of use under operational conditions is described. Methods of safeguarding acquired data have been implemented, command sequences have been si...

marshes flood regularly with the tides, are drained by an extensive system of .... stations, where rock was reduced to a more portable size, and camp sites associated ... in areas that would have been dry land during the Paleoindian Period, but ...

Also, after a period of time, small peaks for sulphur dioxide and carbon dioxide appeared. ... special borosilicate glass inlet system was constructed, con- taining no other material .... change or error in the water content might also affect the indi - ...

of the entire Earth system including clouds, oceans, vegetation, ice and the ... records found in tree rings and ice cores show that the global average temperature is ... Climate is defined by consistent patterns over long periods of time, while ...

Dec 15, 1981 ... creep tests by use of a closed loop servo-hydraulic test system. These tests were ... recovery and stress relaxation have been studied using the same approach. ..... period of time depends only on the preceding strain-rate but ...

...limited to a rate and distribution pattern that keeps thermal stresses within design limits during the cooldown period, paying particular... (b) After cooldown stabilization is reached, cryogenic piping systems must be checked for leaks in areas of flanges,...

Shirco Infrared Systems, operated a pilot-scale infrared unit on-site at the Brio Refinery Site in Texas. Eight tests were run over a four day period with various soil compositions, including clay-like soils from four pits....

The United States NNSA AMS (Aerial Measuring Systems) and the French Commissariat a lEnergie Atomique (CEA) participated in joint aerial survey activities during the period November 6-19, 2007. Survey activities were conducted near Las Vegas, Nevada, and ...

This study shows the standardization of the radiochemical control of MIBG - (sup 131)I in eletrophoretic system and also the biological control in Wistar rat for a period of time, not longer than 60 minutes after tracer administration. (author). (Atominde...

A new hydrogen storage system of poly(methyl acrylate)-confined ammonia borane, which has been prepared by a solution-blending method, has shown the characteristics of controllable dehydrogenation performance and water resistance. (Abstract Copyright [2010], Wiley Periodicals, Inc.)

These objects represent a threat with potentially little or no warning time using conventional ... Protection. System (CAPS) would expand the current detection effort to include long-period ... axe extremely infrequent events relative to a human ...

Aug 13, 2008 ... The safety relief devices for autoclaves in particular must be periodically ..... than one hour after thermal equilibrium of the system has been reached shall ..... for repairs or alterations, National Board "R" certified organizations.

regulation a system of administrative control not inconsistent with accounting ..... work effort is performed over multiple time periods and funds are allotted to cover .... without establishing and having to exercise an option for each program year ...

...quantitative safety analysis. Design...mesh imbedded in composite material, a required clamping...pieces of structural material such as in a wing...periods in the system safety analysis required...percent, the actual composite airplane wing...

We describe a probabilistic construction of $H^s$-regular solutions for the spatially periodic Burgers equation by using a characterization of this solution through a forward-backward stochastic system.

...Atmospheric Administration National Estuarine Reserve System AGENCY: Estuarine Reserves Division, Office of Ocean and Coastal Resource...solicitation period for the National Estuarine research Reserve Land Acquisition and Construction Program...

in the lower limbs and torso tend to atrophy; bones that formerly supported the ..... transient, sub-surface micro- environments in the outer solar system and large asteroids could have .... periods for the effects of gravity; how are phenotypes ...

We discuss explicit solutions of the logistic model with variable parameters. Classical data on the sunflower seeds growth are revisited as a simple application of the logistic model with periodic coefficients. Some applications to related biological systems are briefly reviewed.

this system remains operative at a reduced level throughout the docked period. ... o To allow for brief intra-vehicular movement which may be desir- able for cargo ... Status monitoring and electrical ..... The final column shows the number of ...

...for this periodic operation: (1) A manually...transmitters used in security or safety applications...involving fire, security, and safety of...information for security systems may exceed...0.25% of the center frequency for devices...for any type of operation, including...

Floquet theory is used to solve the Smoluchowski equation for a time-periodic system whose underlying dynamics exhibits a transition to deterministic chaos. For the stochastic version of this system, an abrupt transition occurs in the Floquet decay rates as parameters of the system are varied, leading to a much more rapid decay to the stationary state.

Regarding the different national education systems of modern Europe comparable features of diversity can be observed, as well as a wide range of similarities, e.g. compulsory school attendance, the horizontally structured school system or core subjects. "In the current period education systems are a...

The installation of a 300 kW combined heat and power (CHP) system at Bellhaven Brewery is reported, and advantages of efficient CHP systems, system costs, payback periods and environmental performance are discussed. Details are given of the first large brewery, Johua Tetley Brewery, to install CHP which supplies electricity, steam and hot water. CHP financing options are considered. (UK)

We study the response of an attractor neural network, in the ferromagnetic phase, to an external, time-dependent stimulus, which drives the system periodically two different attractors. We demonstrate a non-trivial dependance of the system via a system size resonance, by showing a signal amplification maximum at a certain finite size.

We have extended the circuit theory of Andreev conductance [Phys. Rev. Lett. {bold 73}, 1420 (1994)] to diffusive superconducting hybrid structures that contain an Aharonov-Bohm ring. The electrostatic potential distribution in the system is predicted to be flux dependent with a period of the superconducting flux quantum {Phi}{sub 0}={ital h}/2{ital e}. When at least one tunnel barrier is present, the conductance of the system oscillates with the same period. {copyright} {ital 1996 The American Physical Society.}

Algorithm-to-architecture mapping model (ATAMM) is strategy minimizing time needed to periodically execute graphically described, data-driven application algorithm on multiple data processors. Implemented as operating system managing flow of data and dynamically assigns nodes of graph to processors. Predicts throughput versus number of processors available to execute given application algorithm. Includes rules ensuring application algorithm represented by graph executed periodically without deadlock and in shortest possible repetition time. ATAMM proves useful in maximizing effectiveness of parallel computing systems.

This report discusses Saffman-Taylor instability; cylinder wake; Levy walk and turbulent channel flow; bubble motion and bubble streams; spinal turbulent and wetting; collective behavior of a coupled map system with a conserved quantity; stability of temporally periodic states; generic nonergodic behavior in continuous systems; characterization of unstable periodic orbits; in low-dimensional chaotic attractors and repellers; and Ginzburg-Landau theory for oil-water-surfactant mixture.

This paper investigates chaos control for scalar delayed chaotic systems using sliding mode control strategy. Sliding surface design is based on delayed feedback controller. It is shown that the proposed controller can achieve stability for an arbitrary unstable fixed point (UPF) or unstable periodic orbit (UPO) with arbitrary period. The chaotic system used in this study to illustrate the theoretical concepts is the well known Mackey-Glass model. Simulation results show the effectiveness of the designed nonlinear sliding mode controller.

Out-of-rotation plane bending vibrations of a rotating tapered beam with periodically varying speed are considered. The integro-partial differential equation of the beam is discretized via Galerkins method and a set of ordinary differential equations with periodic coefficients (Mathieu-Hill type equations) is obtained. Dynamic stability of this parametrically excited system is studied via a monodromy matrix method, the effect of taper ratio on the stability of the system is examined and the results are presented in the form stability charts.

In this paper, we study two species predator-prey Lotka-Volterra type dispersal system with periodic coefficients, in which the prey species can disperse among n patches, while the density-independent predator species is confined to one of the patches and cannot disperse. Sufficient conditions on the boundedness, permanence and existence of positive periodic solution for this system are established. The theoretical results are confirmed by a special example and numerical simulations.

An alternative method for computing dipole-dipole interaction energy in systems of 1D and 2D periodicity like nanowires, nanotubes and thin films is presented. The approach is based on the use of periodic Green's functions that satisfy Laplace's equation and are analytically determined. The method, when combined with short-ranged interaction as in effective Hamiltonian, is suitable for studying finite-temperature properties of low-dimensional ferroelectric systems.

This paper further investigates the dynamical behaviours of a hysteresis-based system. The multi-scroll chaotic attractors can be generated from a given three-dimensional (3D) linear system via a hysteresis series controller. The equilibrium points, stability, symmetry, limit cycles, and periodic windows of the general 3D hysteresis-based system are discussed. In particular, the controlled system has different dynamical behaviours for different hysteresis controllers. Numerical simulations show the abundant dynamical behaviours of the hysteresis-based systems.

In order to monitor an animation of magnetohydrodynamic equilibrium calculated by the FAME-II (Fast Analyzer for Magnetohydrodynamic Equilibrium-II) system, a FAME Animation System was developed. This system provides automatically the animation on workstations connected to network with the same period of JT-60U discharge sequence. Then, the system can supply the important information for JT-60U operators to determine control parameters of the succeeding discharge. This report describes the overview of the FAME Animation System. (author)

The book contains data on the phase diagrams of binary systems whose main components are represented by oxides of Group V elements of the periodic chart (i.e., phosphates, vanadates, niobates, tantalates, bismuthates, and antimonate systems) with an anion function. The phase diagrams presented here are accompanied by structural and physicochemical characteristics of the phases present in these systems. Ternary phase diagrams are also presented for systems containing an oxide which actually represents a pseudo-binary section of a ternary system.

Building on previous work, a new search of the SuperWASP archive was carried out to identify eclipsing binary systems near the short-period limit. 143 candidate objects were detected with orbital periods between 16000 and 20000 s, of which 97 are new discoveries. Period changes significant at 1 sigma or more were detected in 74 of these objects, and in 38 the changes were significant at 3 sigma or more. The significant period changes observed followed an approximately normal distribution with a half-width at half-maximum of ~0.1 s/yr. There was no apparent relationship between period length and magnitude or direction of period change. Amongst several interesting individual objects studied, 1SWASP J093010.78+533859.5 is presented as a new doubly eclipsing quadruple system, consisting of a contact binary with a 19674.575 s period and an Algol-type binary with a 112799.109 s period, separated by 66.1 AU, being the sixth known system of this type.

A seismic structure isolated by a conventional passive isolation system is usually a long-period structural system with a fixed fundamental vibration frequency. Even though conventional isolation systems may effectively mitigate the dynamic responses of structures in a regular earthquake, they may also encounter a low-frequency resonance problem when subjected to a near-fault earthquake that usually has a long-period pulse-like waveform. This long-period wave component may result in an enlargement of the base displacement as well as decrease isolation efficiency. To overcome this problem, a sliding base isolation system with controllable stiffness is proposed in this study. By varying the stiffness of the isolation system, the restoring force provided by the system can be controlled by a p...

Discrete scale invariance (DSI) has recently been documented in time-to-failure rupture, earthquake processes and financial crashes, in the fractal geometry of growth processes and in random systems. The main signature of DSI is the presence of log-periodic oscillations correcting the usual power laws, corresponding to complex exponents. Log-periodic structures are important because they reveal the presence of preferred scaling ratios of the underlying physical processes. Here, we present new evidence of log-periodicity overlaying the leading power law behavior of probability density distributions of affine random maps with parametric noise. The log-periodicity is due to intermittent amplifying multiplicative events. We quantify precisely the progressive smoothing of the log-periodic structures as the randomness increases and find a large robustness. Our results provide useful markers for the search of log-periodicity in numerical and experimental data.

The presence of log-periodic structures before and after stock market crashes is considered to be an imprint of an intrinsic discrete scale invariance (DSI) in this complex system. The fractal framework of the theory leaves open the possibility of observing self-similar log-periodic structures at different time scales. In the present work we analyze the daily closures of three of the most important indices worldwide since 2000: the DAX for Germany and the Nasdaq100 and the S&P500 for the United States. The qualitative behaviour of these different markets is similar during the temporal frame studied. Evidence is found for decelerating log-periodic oscillations of duration about two years and starting in September 2000. Moreover, a nested sub-structure starting in May 2002 is revealed, bringing more evidence to support the hypothesis of self-similar, log-periodic behavior. Ongoing log-periodic oscillations are also revealed. A Lomb analysis over the aforementioned periods indicates a preferential scaling fa...

We propose a new mechanism that produces an orbital period change during a nova outburst. When the ejected material carries away the specific angular momentum of the white dwarf, the orbital period increases. A magnetic field on the surface of the secondary star forces a fraction of the ejected material to corotate with the star, and hence the binary system. The ejected material thus takes angular momentum from the binary orbit and the orbital period decreases. We show that for sufficiently strong magnetic fields on the surface of the secondary star, the total change to the orbital period could even be negative during a nova outburst, contrary to previous expectations. Accurate determinations of pre- and post-outburst orbital periods of recurrent nova systems could test the new mechanism, in addition to providing meaningful constraints on otherwise difficult to measure physical quantities. We apply our mechanism to outbursts of the recurrent nova U Sco.

Aims: In this study, we aim at investigating the properties of the active longitude system of the young solar analogue HD 116956 in detail, especially concentrating on determining the rotation period of the spot-generating mechanism with respect to the photometric rotation period of the star itself. Because the nonparametric approach, like the Kuiper method, can only give the period of active longitudes, we formulate a new method that can determine the parameters the active longitude distribution uniquely. Methods: For this purpose, we have developed an analysis method, based on Bayesian statistics using Markov chain Monte Carlo, presented in this manuscript. One of the advantages of this method is that an estimate of the active longitude system rotation period, as well as the parameters of the shape and location of the active longitudes together with their respective error estimates. This allows us to compare the active longitude and mean photospheric rotation periods of the star. Results: Our analysis confi...

It is shown that the observed period distribution of magnetic cataclysmic variables can be easily understood on the basis of current theories of the secular evolution of these systems, and the formation of the period gap in particular, provided that the white dwarfs have magnetic moments ..mu.. either in the range 10/sup 33/periods <2 hr rules out the possibility that their fields are systematically weaker than those of the AM Her systems, unless magnetic binaries never evolve across the period gap, and the field distribution is as above for orbital periods <2 hr. It is shown how the spin history of EX Hya fits with this picture, and discuss other estimates giving low values of ..mu.. for the intermediate polars.

We consider the ground state of vortices in a Bose-Einstein condensate. We show that turning on a weak optical periodic potential leads to a transition from the triangular Abrikosov vortex lattice to phases where the vortices are pinned by the optical potential. We discuss the phase diagram of the system for a two-dimensional optical periodic potential with one vortex per optical lattice cell. We also discuss the influence of a one-dimensional optical periodic potential on the vortex ground state. The latter situation has no analogue in other condensed-matter systems.

We present theoretical and numerical results on the dynamics of ultracold atoms in an accelerated single- and double-periodic optical lattice. In the single-periodic potential Bloch oscillations can be used to generate fast directed transport with very little dispersion. The dynamics in the double-periodic system is dominated by Bloch-Zener oscillations, i.e. the interplay of Bloch oscillations and Zener tunneling between the subbands. Apart from directed transport, the latter system permits various interesting applications, such as widely tunable matter wave beam splitters and Mach-Zehnder interferometry. As an application, a method for efficient probing of small nonlinear mean-field interactions is suggested.

A companion paper [J. Acoust. Soc. Am. 118, 3010–3020 2005] has examined the phenomena of flexural-longitudinal wave coupling in a practically undamped and semi-infinite periodic waveguide with structural side-branches. The effect of structural damping on wave coupling in such a waveguide is examined in the first part of the present paper, and the damping-dependent decrease in wave coupling is revealed for a structure with multiresonant side-branches. In the second part, the simplifying semi-infinite assumption is relaxed and general expressions for the junction responses of finite and multicoupled periodic systems are derived as a generalization of the governing expressions for finite, mono-coupled periodic systems [Ohlrich, J. Sound Vib. 107, 411–434 (1986)]. The present derivation of the general frequency response of a finite system utilizes the eigenvectors of displacement responses and wave forces that are associated with the characteristic wave-types, which can exist in a multicoupled periodic system [Mead, J. Sound Vib. 40, 19–39 (1975)]. The third part of the paper considers a finite specific test-structure with eight periodic elements and with structural terminations at the extreme ends. Audio-frequency vibration responses of this tri-coupled periodic structure are predicted numerically over a broad range of frequencies and a very good agreement is found with the measurement results obtained from an experiment with a nominally identical, periodic test-structure which is freely suspended.

The phase reduction method is applied to a general class of weakly perturbed time-delay systems exhibiting periodic oscillations. The adjoint equation with an appropriate initial condition for the infinitesimal phase response curve of a time-delay system is derived. The method is demonstrated numerically for the Mackey-Glass equation as well as for a chaotic Rössler system subject to a delayed feedback control (DFC). We show that the profile of the phase response curve of a periodic orbit stabilized by the DFC algorithm does not depend on the control matrix. This property is universal and holds for any dynamical system subject to the DFC.

In superconducting magnetic levitation (Maglev) transportation systems, a vast number of ground coils are installed along the entire length of the guideway which must withstand long periods exposed to outdoor environment. Periodical maintenance work is essential to secure Maglev system operational reliability. However, maintenance work is time and effort consuming given the vast number of ground coils all with similar appearances. Establishment of a reliable and convenient maintenance management system is important. A maintenance management system was therefore developed for ground coils utilizing a maintenance vehicle and radio frequency identification (RFID) technology.   

ABSTRACT Cyclic period changes are a fairly common phenomenon in close binary systems and are usually explained as being caused either by the magnetic activity of one or both components or by the light travel time effect (LTTE) of a third body. We searched the orbital period changes in 182 EA-type (including the 101 Algol systems used by Hall), 43 EB-type and 53 EW-type binaries with known mass ratio and spectral type of the secondary component. We reproduced and improved the diagram in Hall according to the new collected data. Our plots do not support the conclusion derived by Hall that cyclic period changes are restricted to binaries having a secondary component with spectral type later than F5. The presence of period changes among systems with a secondary component of early type indicat...

We present the results of optical identification of two X-ray sources from RXTE and INTEGRAL all sky surveys: XSS J00564+4548 and IGR J00234+6141. Using the optical data from Russian-Turkish 1.5-m Telescope (RTT150) and SWIFT X-ray observations, we show that these sources most probably are intermediate polars, i.e. binary systems with accreting white dwarfs with not very strong magnetic field (<~10 MG). Periodical oscillations of optical emission with periods 480 s and 570 s were found. We argue that these periods most probably correspond to the rotating periods of the white dwarfs in these systems. Further optical observations scheduled at RTT150 will allow to study the parameters of these systems in more detail.

Ball-type automatic balancers have been widely used to suppress the unbalanced vibration of rotor systems. However, instead of reaching the desired perfect balancing position, where the balls of the automatic balancer are allocated properly so that the rotor is perfectly balanced, the system may settle into a pure-rotary periodic motion, in which all the balls stick together and keep rotating around the balancer. Because the associated large vibrations may deteriorate the performance of the rotor system, it is desirable to avoid the pure-rotary periodic motion. To this end, there is a need to understand the properties of pure-rotary periodic motions clearly. In this study, we used the modified incremental harmonic balance method to find pure-rotary periodic motions numerically. The existen...

We present the aim and first results of the RApid Temporal Survey (RATS) made using the Wide Field Camera on the Isaac Newton Telescope. Our initial survey covers 3 square degrees, reaches a depth of V~22.5 and is sensitive to variations on timescales as short as 2 minutes: this is a new parameter space. Each field was observed for over 2 hours in white light, with 12 fields being observed in total. Our initial analysis finds 46 targets which show significant variations. Around half of these systems show quasi-sinusoidal variations: we believe they are contact or short period binaries. We find 4 systems which show variations on a timescale less than 1 hour. The shortest period system has a period of 374 sec. We find two systems which show a total eclipse. Further photometric and spectroscopic observations are required to fully identify the nature of these systems. We outline our future plans and objectives.

Many biological systems experience a periodic environment. Floquet theory is a mathematical tool to deal with such time periodic systems. It is not often applied in biology, because linkage between the mathematics and the biology is not available. To create this linkage, we derive the Floquet theory for natural systems. We construct a framework, where the rotation of the Earth is causing the periodicity. Within this framework the angular momentum operator is introduced to describe the Earth?s rotation. The Fourier operators and the Fourier states are defined to link the rotation to the biological system. Using these operators, the biological system can be transformed into a rotating frame in which the environment becomes static. In this rotating frame the Floquet solution can be derived. T...

From the earliest historical period up to the present, Hindus have linked education with religion. This paper examines the evolution of the Hindu educational system from the Vedic period (up to 1000 B.C.) to the present. Topics covered include the historical development of the Hindu education from the earliest period when it consisted of recitation of the Vedas to the Brahmana period which led to the development of the Laws of Manu, the rule of religious and social life for Hindus, and later periods. Other areas discussed are teaching methods and objectives in traditional primary schools, the central position of the student-teacher relationship, higher education from the Vedic period to 1200 A.D., and teaching methods used in an educational system emphasizing memorization. Separate sections also deal with: (1) the evolution of women's education from the earlier period, when women were freer to participate, to the period beginning around 500 B.C. when women's educational opportunities declined; and (2) the philosophy of education, which emphasized the importance of education for illumination, greater piety, and character development. A seven-page list of project research papers concludes the document. (IS)

A test facility for Small SDHW systems was built in 1992. In the test facility up to 10 SDHW systems can be tested side-by-side under the same realistic conditions. Since 1992 16 different systems have been tested in the facility. Both test systems and marketed systems from Danish as well as foreign manufacturers have been tested.The thermal performances of the systems have been measured for periods with a duration of about 1 year. In this way direct comparisons of the thermal performances of the different systems are possible.Further, measured and calculated thermal performances for all the systems have been compared for different weather periods. Detailed simulation models were used to calculate the thermal performances. The models were modified in such a way that good agreement between measurements and calculations were achieved for different periods.Bymeans of the modified simulation models the yearly thermal performances of the tested systems have been determined with the Danish Test Reference Year as the weather data. Based on calculations with the models improvements of the design of the different systems have been recommended.Experience from the operation of the different systems have been gained and the suitability of different system designs have been determined.Based on the investigations, recommendations for future improvements and development of small SDHW systems are given.

Crustal thickness and continental lithosphere thinning factors have been determined for the High Arctic using a gravity inversion method which incorporates a lithosphere thermal gravity anomaly correction. Continental lithosphere thinning factor maps, determined by the inversion of the NGA (U) Arctic Gravity Project data have been used to predict the distribution of oceanic lithosphere and ocean-continent transition (OCT) location for the Amerasia Basin. Thin crust and high lithosphere thinning factors are predicted in the Makarov, Podvodnikov and Canada Basins consistent with these basins being oceanic. Larger crustal thicknesses, in the range 20 - 30 km, are predicted for the Lomonosov, Alpha and Mendeleev Ridges. Moho depths predicted by gravity inversion have been compared with seismic estimates for the TransArctica and Arctica profiles with seismically observed sediment thickness included in the gravity inversion. Agreement between gravity and seismic Moho depths is generally good. The largest differences between gravity and seismic Moho depths occur where lower crustal seismic velocities, Vp, are in excess of ~ 7.3km/s. Gravity inversion to determine Moho depth and crustal thickness variation is carried out in the 3D spectral domain. A correction for the large negative residual thermal gravity anomaly within oceanic and stretched continental margin lithosphere is made and requires a lithosphere thermal model to predict the present day lithosphere thermal anomaly. For continental margin lithosphere, the lithosphere thermal perturbation is calculated from the lithosphere thinning factor (1-1/beta) obtained from crustal thinning determined by gravity inversion and breakup age for thermal re-equilibration time. A correction is made for crustal volcanic addition due to decompression melting during breakup and sea-floor spreading. For the Amerasia Basin, where ocean isochrons are uncertain, all lithosphere is assumed to be initially continental, and a lithosphere thinning and thermal perturbation age corresponding to the time of continental breakup is used. For the Eurasia Basin and the N Atlantic, oceanic magnetic isochron ages are used to condition the lithosphere thermal model. The new gravity inversion method, incorporating the lithosphere thermal gravity anomaly correction, provides an isochron independent prediction of OCT location for the Amerasia Basin. Predicted continental lithosphere thinning factors and crustal thickness for the Amerasia Basin are sensitive to continental breakup age and volcanic addition. Comparison of gravity and seismic Moho depths for the Makarov/Podvodnikov Basins supports a Cretaceous age for their formation. We thank Statoil and NFR for their support.

We study the dynamics of entanglement for a one-dimensional spin chain with a nearest neighbor time dependent Heisenberg coupling J(t) between the spins in presence of a time dependent external magnetic field h(t) at zero and finite temperatures. We consider different forms of time dependence for the coupling and magnetic field; exponential, hyperbolic and periodic. We examined the system size effect on the entanglement asymptotic value. It was found that for a small system size the entanglement starts to fluctuate within a short period of time after applying the time dependent coupling. The period of time increases as the system size increases and disappears completely as the size goes to infinity. We also found that when J(t) is periodic the entanglement shows a periodic behavior with the same period, which disappears upon applying periodic magnetic field with the same frequency. Solving the particular case where J(t) and h(t) are proportional exactly, we showed that the asymptotic value of entanglement dep...

An apparatus for increasing the efficiency of a conventional central space heating system is disclosed. The temperature of a fluid heating medium is adjusted based on a measurement of the external temperature, and a system parameter. The system parameter is periodically modified based on a closed loop process that monitors the operation of the heating system. This closed loop process provides a heating medium temperature value that is very near the optimum for energy efficiency.

We study controllability issues for the 2D Euler and Navier-Stokes (NS) systems under periodic boundary conditions. These systems describe motion of homogeneous ideal or viscous incompressible fluid on a two-dimensional torus $\\mathbb{T}^2$. We assume the system to be controlled by a degenerate forcing applied to fixed number of modes. In our previous work \\cite{ASpb,AS43,ASDAN} we studied global controllability by means of degenerate forcing for Navier-Stokes (NS) systems with nonvanishing viscosity ($\

Computer calculations were used to investigate the behavior of a periodic solenoidal thin lens focusing system with 90(0) phase advance. Despite strong similarities in the behavior predicted by the linear theory, a 90(0) solenoidal system does not appear to exhibit the emittance growth characteristic of the similar 90(0) alternate gradient system. In other ways, however, behavior is observed which is similar to the analagous alternate gradient system.

In recent years, studies to apply passive safety system to PWRs have been performed by many organizations. On the other hand, studies to improve the conventional active safety systems are also being evaluated. This article shows another approach to improve the PWR safety systems. The Hybrid Safety System which is a combination of a passive safety system and an active safety system has a possibility to improve both reliability and plant economy. In this article, a selection of elemental technologies to construct the whole-system are discussed. Then, operational signal and reactor cooling after the grace period are discussed. (orig.)

The dynamics of many natural and technical systems are essentially influenced by a periodic forcing. Analytic solutions of the equations of motion for periodically driven systems are generally not known. Simulations, numerical solutions or in some limiting cases approximate analytic solutions represent the known approaches to study the dynamics of such systems. Besides the regime of weak periodic forces where linear response theory works, the limit of a slow driving force can often be treated analytically using an adiabatic approximation. For this approximation to hold all intrinsic processes must be fast on the time-scale of a period of the external driving force. We developed a perturbation theory for periodically driven Markovian systems that covers the adiabatic regime but also works if the system has a single slow mode that may even be slower than the driving force. We call it the semi adiabatic approximation. Some results of this approximation for a system exhibiting stochastic resonance which usually takes place within the semi adiabatic regime are indicated. (author) 1 fig., 8 refs.

This study was undertaken to characterize the effects of the linear periodized training in rats on aerobic and anaerobic performance, glycogen concentration in soleus, gastrocnemius and liver, hormones concentrations (testosterone and corticosterone), enzymes and metabolites (creatine kinase, lactate dehydrogenase, creatinine, uric acid and urea) as well as antioxidant system (catalase, superoxide dismutase and sulfhydryl groups) after basic, specific and taper periods. Seventy male Wistar rats were randomly separated in two groups: control/sedentary (CT, n?=?40) and linear periodized training (LPT, n?=?30). The LPT was carried out during a period of 12?weeks (w) with frequency of 6?days/week. The training period was subdivided in three mesocycles: basic (6?weeks), specific (4.5?weeks) and...

Context. High volume surges in health care are uncommon and unpredictable events. Their impact on health system performance and capacity is difficult to study. Objectives. To identify time periods that exhibited very busy conditions at a poison control center and to determine whether cases and communication during high volume call periods are different from cases during low volume periods. Methods. Call data from a US poison control center over twelve consecutive months was collected via a call logger and an electronic case database (Toxicall).Variables evaluated for high call volume conditions were: (1) call duration; (2) number of cases; and (3) number of calls per staff member per 30 minute period. Statistical analyses identified peak periods as busier than 99% of all other 30 minute ti...

Recently, new efforts have been made to explore the lunar environment, with missions aimed at collecting vast amounts of data in view of a future human installation. In this context, several authors have proposed the exploitation of the neighbourhood of the equilibrium point L1 in the Earth-Moon system for various objectives. The purpose of this study is to provide effective criteria that can be applied to choosing a nominal orbit operable to these ends. We consider as key parameters the lunar surface coverage, Earth and Moon eclipses and orbit maintenance costs. By considering sets of periodic and quasi-periodic orbits at various energy levels, we provide parametric analyses that can be used to identify a specific orbit according to mission constraints. In general, a quasi-periodic orbit is preferable to a periodic one, owing to the larger number of parameters that characterize quasi-periodic orbits.

We report extensive photometry of the dwarf nova V660 Herculis. During our campaign, lasting from August 2003 to November 2004, we recorded one bright eruption which turned out to be a superoutburst lasting about 15 days and having amplitude of ~4.5 mag. Clear superhumps with a mean period of Psh = 0.080924(18) days were present during all nights of the superoutburst. The period of the superhumps was not stable and in the interval covered by our observations it decreased with a rate of -4.0(1.4) * 10^{-5}. Basing on our data and the known orbital period of the binary (Thorstensen and Fenton 2003) we calculate the period excess of 3.4 +/- 0.1%, which is typical for an SU UMa star at this orbital period. This value indicates that the mass ratio of the system is q=0.154.

We study the dynamics of the awakening during the night for healthy subjects and find that the wake and the sleep periods exhibit completely different behavior: the durations of wake periods are characterized by a scale-free power-law distribution, while the durations of sleep periods have an exponential distribution with a characteristic time scale. We find that the characteristic time scale of sleep periods changes throughout the night. In contrast, there is no measurable variation in the power-law behavior for the durations of wake periods. We develop a stochastic model which agrees with the data and suggests that the difference in the dynamics of sleep and wake states arises from the constraints on the number of microstates in the sleep-wake system.

The objective of this study was to investigate the influence of farming management on the total locomotor activity (TLA) behaviour in dairy cattle. We recorded 24h/day TLA in five not pregnant Holstein Friesian cows during parts of the lactation and dry periods, by means of an activity monitoring system (Actiwatch mini(R)) for seven days in each period. During mild lactation (period 1) animals were milked and fed twice a day. During the dry (period 2) they were kept to graze all day. In both periods hay and water were available ad libitum. Differences between the photophase and the scotophase were evaluated with a Student t-test. One-way repeated measure ANOVA was used to determine a statistical significant effect of time. A trigonometric statistical model was used to describe the main rhy...

The main goal of this paper is to discuss the existence of periodic solutions of the second order equation: y?+?sgn(y)=?sin(?t)with(?,?,?)?R3?>0. We analyze the dynamics of such an equation around the origin which is a typical singularity of non-smooth dynamical systems. The main results consist in exhibiting conditions on the existence of typical periodic solutions that appear generically in such systems. We emphasize that the mechanism employed here is applicable to many more systems. In fact this work fits into a general program for understanding the dynamics of non-autonomous differential equations with discontinuous right-hand sides.

A periodically forced system of differential equations is defined to be a pump, if there exists an asymptotically periodic solution with non-equilibrium mean. It is proved that such systems exist. The definition is based on physical and numerical observations of pumping in (models of) asymmetric flow configurations. For models with rigid pipes and tanks, physical explanations for the pumping effects are derived. One of the pumps is an internally forced linear system. For externally forced nonlinear rigid pipe models, necessary and sufficient conditions for pumping are given. It is then demonstrated in a general setting that no externally forced linear pump exists.

This paper studies switched dynamical systems based on a simplified model of two-paralleled dc-dc buck converters in current mode control. In the system, we present novel four switching rules depending on both state variables and periodic clock. The system has piecewise constant vector field and piecewise linear solutions: they are well suited for precise analysis. We then clarify parameter conditions that guarantee generation of stable 2-phase synchronization and hyperchaos for each switching rule. Especially, it is clarified that stable synchronization is always possible by proper use of the switching rules and adjustment of clock period. Presenting a simple test circuit, typical phenomena are confirmed experimentally.