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Since January 1st, 1998, Andre Rubbia has been Associate Professor and since December 1st, 2003, he has been Full Professor of Experimental Physics at the Institute for Particle Physics at ETH Zurich.
He was born in Geneva on August 12, 1966. From 1985 until 1990 he studied physics at the University of Geneva, where he made his diploma thesis within the L3 experiment at the LEP accelerator at CERN (European Laboratory for Nuclear Research). He made his PhD thesis at the Massachusetts Institute of Technology in Cambridge, USA, where he graduated with Prof. S.C.C. Ting in 1993. Back at CERN, he worked as a staff member at the neutrino experiment NOMAD. With this experiment he searched for neutrino oscillations to test the heavy neutrino hypothesis.
The research activities on elementary particles and their interactions are now concentrated at ETH Hoenggerberg and at CERN. The group is involved with the data analysis of the NOMAD experiment and with the development of hardware and software for two new experiments: the ICARUS detector and the Compact Muon Solenoid (CMS) detector.
Today the neutrino is considered to be massless. If the phenomenon of neutrino oscillations would be discovered, it would mean, that the fundamental neutrino particle is massive, which would have important implications on the universe.
By the year 2004, the ICARUS detector will be installed at the Gran Sasso National Laboratory (near Rome, Italy). It will allow a precise study of neutrinos, which are produced in the atmosphere of the earth in order to verify the hypothesis of neutrino oscillations and mass. It will also be possible to identify neutrinos coming from the sun and to test the stability of matter with a search for proton decays. In addition, there is a proposal to send neutrinos produced at the CERN-SPS storage ring from Geneva to the ICARUS detector in the Gran Sasso Laboratory (at a distance of 730 km) to directly verify the phenomenon of neutrino oscillations.
The CMS experiment at the future LHC-collider at CERN is under construction. From the year 2005 onwards it will allow to study proton-proton-collisions at a center-of-mass energy of 14000 GeV (see http://cmsdoc.cern.ch/). This experiment will open new energy- and luminosity-frontier and has therefore large potential to discover new particles, e.g. the Higgs-boson or other new particles and forces. Many theories beyond the Standard Model (for example SUSY) will be directly tested.
He was born in Geneva on August 12, 1966. From 1985 until 1990 he studied physics at the University of Geneva, where he made his diploma thesis within the L3 experiment at the LEP accelerator at CERN (European Laboratory for Nuclear Research). He made his PhD thesis at the Massachusetts Institute of Technology in Cambridge, USA, where he graduated with Prof. S.C.C. Ting in 1993. Back at CERN, he worked as a staff member at the neutrino experiment NOMAD. With this experiment he searched for neutrino oscillations to test the heavy neutrino hypothesis.
The research activities on elementary particles and their interactions are now concentrated at ETH Hoenggerberg and at CERN. The group is involved with the data analysis of the NOMAD experiment and with the development of hardware and software for two new experiments: the ICARUS detector and the Compact Muon Solenoid (CMS) detector.
Today the neutrino is considered to be massless. If the phenomenon of neutrino oscillations would be discovered, it would mean, that the fundamental neutrino particle is massive, which would have important implications on the universe.
By the year 2004, the ICARUS detector will be installed at the Gran Sasso National Laboratory (near Rome, Italy). It will allow a precise study of neutrinos, which are produced in the atmosphere of the earth in order to verify the hypothesis of neutrino oscillations and mass. It will also be possible to identify neutrinos coming from the sun and to test the stability of matter with a search for proton decays. In addition, there is a proposal to send neutrinos produced at the CERN-SPS storage ring from Geneva to the ICARUS detector in the Gran Sasso Laboratory (at a distance of 730 km) to directly verify the phenomenon of neutrino oscillations.
The CMS experiment at the future LHC-collider at CERN is under construction. From the year 2005 onwards it will allow to study proton-proton-collisions at a center-of-mass energy of 14000 GeV (see http://cmsdoc.cern.ch/). This experiment will open new energy- and luminosity-frontier and has therefore large potential to discover new particles, e.g. the Higgs-boson or other new particles and forces. Many theories beyond the Standard Model (for example SUSY) will be directly tested.
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Journal of Physics: Conference Series (2018): 012007
Journal of Physics: Conference Series (2018)
The European Physical Journal Cno. 4 (2007): 899-904
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