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THE ALICE EXPERIMENT AT CERN LHC: STATUS AND FIRST RESULTS
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The ALICE experiment is aimed at studying the properties of the hot and dense matter produced in heavy-ion collisions at LHC energies. In the first years of LHC operation the ALICE physics program will be focused on Pb - Pb and p - p collisions. The latter, on top of their intrinsic interest, will provide the necessary baseline for heavy-ion data. After its installation and a long commissioning with cosmic rays, in late fall 2009 ALICE participated (very successfully) in the first LHC run, by collecting data in p - p collisions at c.m. energy 900 GeV. After a short stop during winter, LHC operations have been resumed; the machine is now able to accelerate proton beams up to 3.5 TeV and ALICE has undertaken the data taking campaign at 7 TeV c.m. energy. After an overview of the ALICE physics goals and a short description of the detector layout, the ALICE performance in p - p collisions will be presented. The main physics results achieved so far will be highlighted as well as the main aspects of the ongoing data analysis.
Title: THE ALICE EXPERIMENT AT CERN LHC: STATUS AND FIRST RESULTS
Description:
The ALICE experiment is aimed at studying the properties of the hot and dense matter produced in heavy-ion collisions at LHC energies.
In the first years of LHC operation the ALICE physics program will be focused on Pb - Pb and p - p collisions.
The latter, on top of their intrinsic interest, will provide the necessary baseline for heavy-ion data.
After its installation and a long commissioning with cosmic rays, in late fall 2009 ALICE participated (very successfully) in the first LHC run, by collecting data in p - p collisions at c.
m.
energy 900 GeV.
After a short stop during winter, LHC operations have been resumed; the machine is now able to accelerate proton beams up to 3.
5 TeV and ALICE has undertaken the data taking campaign at 7 TeV c.
m.
energy.
After an overview of the ALICE physics goals and a short description of the detector layout, the ALICE performance in p - p collisions will be presented.
The main physics results achieved so far will be highlighted as well as the main aspects of the ongoing data analysis.
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