Add to ORKGNucleus-nucleus collisions at the Large Hadron Collider (LHC) represent an unprecedented opportunity to create and study the strongly interacting QCD matter in the laboratory at the highest energy frontier. One of major goals of the ATLAS heavy ion program is the extension and clarification of the understanding of the effects of hot, dense QCD matter on hard probes, specifically jets. In this short article we present some of physics capabilities of the ATLAS detector, with respect to achieveing this goal
Jets production in ultra-relativistic heavy ion collisions provides understanding of the mechanisms ...
The ATLAS experiment at the Large Hadron Collider (LHC) has undertaken a broad physics program to pr...
The primary goal of the heavy ion program at ATLAS is to study the properties of the deconfined, str...
The ATLAS detector is designed primarily for proton-proton collisions but it will also participate i...
The ATLAS detector is designed primarily for proton-proton collisions but it will also participate i...
ATLAS detector is optimized for studies of high-p_T physics in pp collisions at the LHC collider. Pr...
Relativistic heavy ion collisions at the LHC will uncover properties of hot and dense medium formed ...
The ATLAS detector is designed to study proton-proton collisions at the LHC. This paper reports on a...
The CERN LHC will collide lead ions at sqrt(s)=5.5 TeV per nucleon pair and will provide crucial inf...
Soon after the LHC is commissioned with proton beams the ATLAS experiment will begin studies of Pb-P...
Soon after the LHC is commissioned with proton beams the ATLAS experiment will begin studies of Pb-P...
The ATLAS detector is designed to study high-p T physics in proton-proton collisions at the LHC de...
The next great energy frontier in Relativistic Heavy Ion Collisions is quickly approaching with the ...
Highly energetic jets are considered to be a direct probe of hot and dense QCD medium created in hea...
The heavy-ion program at LHC will be pursued by three experiments including ATLAS, a multipurpose de...
Jets production in ultra-relativistic heavy ion collisions provides understanding of the mechanisms ...
The ATLAS experiment at the Large Hadron Collider (LHC) has undertaken a broad physics program to pr...
The primary goal of the heavy ion program at ATLAS is to study the properties of the deconfined, str...
The ATLAS detector is designed primarily for proton-proton collisions but it will also participate i...
The ATLAS detector is designed primarily for proton-proton collisions but it will also participate i...
ATLAS detector is optimized for studies of high-p_T physics in pp collisions at the LHC collider. Pr...
Relativistic heavy ion collisions at the LHC will uncover properties of hot and dense medium formed ...
The ATLAS detector is designed to study proton-proton collisions at the LHC. This paper reports on a...
The CERN LHC will collide lead ions at sqrt(s)=5.5 TeV per nucleon pair and will provide crucial inf...
Soon after the LHC is commissioned with proton beams the ATLAS experiment will begin studies of Pb-P...
Soon after the LHC is commissioned with proton beams the ATLAS experiment will begin studies of Pb-P...
The ATLAS detector is designed to study high-p T physics in proton-proton collisions at the LHC de...
The next great energy frontier in Relativistic Heavy Ion Collisions is quickly approaching with the ...
Highly energetic jets are considered to be a direct probe of hot and dense QCD medium created in hea...
The heavy-ion program at LHC will be pursued by three experiments including ATLAS, a multipurpose de...
Jets production in ultra-relativistic heavy ion collisions provides understanding of the mechanisms ...
The ATLAS experiment at the Large Hadron Collider (LHC) has undertaken a broad physics program to pr...
The primary goal of the heavy ion program at ATLAS is to study the properties of the deconfined, str...