6533b7d6fe1ef96bd1266772
RESEARCH PRODUCT
Energy deposition in hard dihadron triggered events in heavy-ion collisions
Thorsten Renksubject
PhysicsShock waveNuclear and High Energy Physics010308 nuclear & particles physicsHadronFOS: Physical sciencesPartonCollision01 natural sciencesHadronizationNuclear physicssymbols.namesakeHigh Energy Physics - PhenomenologyHigh Energy Physics - Phenomenology (hep-ph)Mach number0103 physical sciencesMach's principlesymbolsRapidity010306 general physicsNuclear Experimentdescription
The experimental observation of hadrons correlated back-to-back with a (semi-)hard trigger in heavy ion collisions has revealed a splitting of the away side correlation structure in a low to intermediate transverse momentum (P_T) regime. This is consistent with the assumption that energy deposited by the away side parton into the bulk medium produced in the collision excites a sonic shockwave (a Mach cone) which leads to away side correlation strength at large angles. A prediction following from assuming such a hydrodynamical origin of the correlation structure is that there is a sizeable elongation of the shockwave in rapidity due to the longitudinal expansion of the bulk medium. Using a single hadron trigger, this cannot be observed due to the unconstrained rapidity of the away side parton. Using a dihadron trigger, the rapidity of the away side parton can be substantially constrained and the longitudinal structure of the away side correlation becomes accessible. However, in such events several effects occur which change the correlation structure substantially: There is not only a sizeable contribution due to the fragmentation of the emerging away side parton, but also a systematic bias towards small energy deposition into the medium and hence a weak shockwave. In this paper, both effects are addressed.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2008-04-08 |