EXPERIMENTAL PARTICLE PHYSICS - F9
In order to reveal the ultimate secrets of nature in the world of elementary particles, accelerators with higher and higher energies are needed. Their cost, both in terms of money and human resources, has grown to the level where they are affordable only as joint international enterprises. Thus, future accelerators will be unique facilities of their kind, the first being the Large Hadron Collider (LHC), under construction at the European Organization for Nuclear Research (CERN) near Geneva. Researchers will exploit this facility to perform experiments in presently inaccessible regions of energy, which, though pushed higher and higher, still remains minute compared to that of the vast blast of the Big Bang that led to the creation of the Universe. Together with colleagues from the Physics Department of the Faculty of Mathematics and Physics and the Faculty of Electrical Engineering of the University of Ljubljana, and from the Faculty of Chemistry and Chemical Technology of the University of Maribor, we are performing measurements at CERN, the German centre DESY in Hamburg and the Japanese centre KEK in Tsukuba. We are taking part in three experiments, each conducted as an international collaboration:
- ATLAS at the Large Hadron Collider (LHC) at CERN (1900 researchers, 150 institutions),
- Belle at the asymmetric electron-positron collider (KEK-B) at KEK (400 researchers, 56 institutions) and
- HERA-B at the HERA electron-proton collider at DESY (310 researchers, 33 institutions).
Head of Department
Prof. Marko Mikuž, Ph. D., email@example.com
Andreja Butina, Andreja.Butina@ijs.si
Telephone: +386 1 477 37 42
Fax: +386 1 477 31 66
In the field of astroparticle physics we are part of the Pierre Auger collaboration (200 researchers, 55 institutions), which is constructing a giant scale (3000 km2) observatory near Malargue in Argentina for detection of ultra-high-energy cosmic rays. This endeavour is carried out in collaboration with colleagues from University of Nova Gorica.