学术报告:The CBM experiment at FAIR: physics program and experimental realisation
报告题目:The CBM experiment at FAIR: physics program and experimental realisation
报 告 人:HERRMANN, Norbert (University of Heidelberg)
报告时间:2015年12月11日(星期五)上午10:30-11:30
报告地点:嘉定园区102楼503室
报告简介:
The Compressed Baryonic Matter (CBM) experiment aims at mapping out the QCD phase diagram at the highest baryon densities that can be reached with heavy-ion collisions. The key element of CBM is it's unique rate capability allowing for systematic precision measurements of hadronic and electromagnetic rare probes. The current knowledge about the equation-of-state and possible phase transitions signatures addressed by CBM will be discussed.
报告人简介:
Education history
1984 Diploma of Physics, University Münster, Germany
1987 PhD,”summa cum laude”, University of Heidelberg, Germany
1995 Habilitation (venia legendi), University of Heidelberg, Germany
Employment history
1987 – 1988 Postdoc at State University of New York at Stony Brook, USA
1988 – 1989 Visiting assistant professor at SUNY, Stony Brook, USA
1989 – 1991 Scientific Employee, University of Heidelberg
1991 – 1998 Staff Scientist, Gesellschaft für Schwerionenforschung (GSI), Darmstadt
since 1998 Professor of Physics, University of Heidelberg
Scientific involvements
since 1987 Member of the E814/E877 collaboration at the AGS of BNL, USA
since 1989 Member of the FOPI collaboration at GSI, Germany
since 1997 Spokesperson of the GSI Experiment FOPI
2000 – 2012 Member of the ALICE collaboration at LHC / CERN
since 2004 Project leader “TOF” of the CBM experiment at FAIR
since 2006 Member of the CBM management board
2008 – 2011 Member of EU Hadron Physics 2, WP18, “Future Gas”
since 2012 Member of EU Hadron Physics 3, WP19, “Future PID”
报 告 人:HERRMANN, Norbert (University of Heidelberg)
报告时间:2015年12月11日(星期五)上午10:30-11:30
报告地点:嘉定园区102楼503室
报告简介:
The Compressed Baryonic Matter (CBM) experiment aims at mapping out the QCD phase diagram at the highest baryon densities that can be reached with heavy-ion collisions. The key element of CBM is it's unique rate capability allowing for systematic precision measurements of hadronic and electromagnetic rare probes. The current knowledge about the equation-of-state and possible phase transitions signatures addressed by CBM will be discussed.
报告人简介:
Education history
1984 Diploma of Physics, University Münster, Germany
1987 PhD,”summa cum laude”, University of Heidelberg, Germany
1995 Habilitation (venia legendi), University of Heidelberg, Germany
Employment history
1987 – 1988 Postdoc at State University of New York at Stony Brook, USA
1988 – 1989 Visiting assistant professor at SUNY, Stony Brook, USA
1989 – 1991 Scientific Employee, University of Heidelberg
1991 – 1998 Staff Scientist, Gesellschaft für Schwerionenforschung (GSI), Darmstadt
since 1998 Professor of Physics, University of Heidelberg
Scientific involvements
since 1987 Member of the E814/E877 collaboration at the AGS of BNL, USA
since 1989 Member of the FOPI collaboration at GSI, Germany
since 1997 Spokesperson of the GSI Experiment FOPI
2000 – 2012 Member of the ALICE collaboration at LHC / CERN
since 2004 Project leader “TOF” of the CBM experiment at FAIR
since 2006 Member of the CBM management board
2008 – 2011 Member of EU Hadron Physics 2, WP18, “Future Gas”
since 2012 Member of EU Hadron Physics 3, WP19, “Future PID”
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