The arrival at CERN of the President of the Republic of Croatia, Stjepan Mesic. In the first row, from left to right: Maurice Bourquin, President of CERN Council, Stjepan Mesic, President of the Republic of Croatia and Robert Aymar, Director General of CERN.
On 11 December, President Stjepan Mesic of the Republic of Croatia visited CERN. He was welcomed by Director General, Robert Aymar, and the President of CERN Council, Maurice Bourquin. Afterwards he met, among others, the Directors of CERN and Croatian scientists working here. He finished his tour by visiting the underground cavern for the ATLAS experiment.
On 11 December, President Stjepan Mesic of the Republic of Croatia visited CERN. He was welcomed by Director General, Robert Aymar, and the President of CERN Council, Maurice Bourquin. Afterwards he met, among others, the Directors of CERN and Croatian scientists working here. He finished his tour by visiting the underground cavern for the ATLAS experiment. The arrival at CERN of the President of the Republic of Croatia, Stjepan Mesic. In the first row, from left to right: Maurice Bourquin, President of CERN Council, Stjepan Mesic, President of the Republic of Croatia and Robert Aymar, Director General of CERN.
Full Text Available Promotion of the monograph Topographic Maps on the Territory of Croatiawas organized by the Croatian Cartographic Society and held at the Croatian State Archive in Zagreb on April 18, 2012. At the beginning of the promotion, guests were welcomed by Dr. Stjepan Ćosić, Director of the Croatian State Archive. The monograph was then represented by Prof. Dr. Stanislav Frangeš, the book's editor, Prof. Dr. Miljenko Lapaine, the book's reviewer, and MSc Ivan Landek, one of the book's authors.
Monet, D.; Levine, S.
The U.S. Naval Observatory Flagstaff Station is in the process of enabling access to the Precision Measuring Machine (PMM) program's pixel database. The initial release will include the pixels from the PMM's scans of the Palomar Observatory Sky Survey I (POSS-I) -O and -E surveys, the Whiteoak Extension, the European Southern Observatory-R survey, the Science and Engineering Council-J, -EJ, and -ER surveys, and the Anglo- Australian Observatory-R survey. (The SERC-ER and AAO-R surveys are currently incomplete.) As time allows, access to the POSS-II -J, -F, and -N surveys, the Palomar Infrared Milky Way Atlas, the Yale/San Juan Southern Proper Motion survey, and plates rejected by various surveys will be added. (POSS-II -J and -F are complete, but -N was never finished.) Eventually, some 10 Tbytes of pixel data will be available. Due to funding and technology limitations, the initial interface will have only limited functionality, and access time will be slow since the archive is stored on Digital Linear Tape (DLT). Usage of the pixel data will be restricted to non-commercial, scientific applications, and agreements on copyright issues have yet to be finalized. The poster presentation will give the URL.
Full Text Available The design of the Dubrovnik Cathedral (1671-1713 – a monumental three-nave basilica with a dome over the crossing – was commissioned, thanks to Abbot Stjepan Gradić, from the Roman architect Andrea Bufalini. Among the leaders of construction, which lasted for over four decades, the Sicilian architect Tommaso Maria Napoli stands out. During his nine-year stay in Dubrovnik (1689-98 he was the only one who engaged in radical changes in the design. Through his changes to the vaulting and lighting of the main nave and sanctuary, as well as the introduction of terraces above the side chapels, he gave the building better proportions, and moreover he balanced its volume by enriching the Cathedral with the plastic expressiveness characteristic of Sicilian architecture at that time. Napoli was the only architect involved in the construction of the Dubrovnik Cathedral who had an international reputation, from his native Sicily, to Naples, Rome, and the Habsburg Monarchy. This makes his inventive corrections to Bufalini's design even more significant.
Full Text Available Before the Croatian-Slavonian parliamentary elections in 1897, two oppositional parties formed the so called United Opposition which was backed by large segments of the clergy. Afraid, variously, of liberalism, the Hungarian church reforms, the ideas of social democracy and the demands for secularization, the United Opposition chose antisemitism as a political means. Supported by the Catholic paper (Katolički list and its editor in chief Stjepan Korenić, who openly called for the clergy to organize politically, they blamed Jews for all the putative threats of the modern world. For the first time an election campaign in Croatia-Slavonia had open antisemitic traits. The author shows the impact of antisemitic ideas within some parts of the Croatian opposition since the 1880s, including political Catholicism and the United Opposition, down to the turn of the century. The paper considers in addition the role of the Catholic newspaper and the press in general in the antisemitic campaign in 1897, as well as in the distribution of antisemitic ideas in the 1880s and 1890s in the Habsburg crownland Croatia-Slavonia.
lasting legacy on generations to come. Professor Stjepan Gamulin made molecular medicine the working reality at Rebro. Both in clinical research, and in health system as diagnostic service and tool for all centers in Croatia, molecular measurement in tissue samples came into usage in daily physicians reasoning and therapy prescriptions. Macromolecular aspects of disease have come of age and became clinimetric signs of patients' condition. Professor Gamulin with his group and associated authors wrote the textbook of pathophysiology, which in upcoming 30 years had 7 editions, has become the bestseller in medicine. The textbook was translated and published in English and Albanian. In the most recent book professor Gamulin turned the focus of medical community to clinical epidemiology and a need for retrospective insights into medical efficiency. Medical performance can be improved with the improvement of understanding of underlying etiopathogenetic relations as the foundation of therapy-is the main message. Following the academic legacy and spirit of three charismatic authorities we established two methods of teaching/learning in medicine. The two methods opened up a new avenue, so important for the era of postgenomic plethora of information and demands of precision/personalized medicine. Methodology has been introduced timely. It is student-friendly and usable for advanced types of education. Problem based algorhytmic matrices stimulate analysis and resynthesis of etiopathogenetic pathways. Graphic presentation of the solution integrates horizontal, vertical and longitudinal aspects of the problem. The companion textbook in the form of problem solver has been published in 3 editions, and contains 128 study solved cases. It was published in English, as well. Out of algorhythmic analysis the etiopathogenetic clusters (EPCs) are composed of etiopathogenetic pathway analysis. EPCs are natural units of disease development, the crossing points of processes. They are integrative