Two-particle Direct Photon-Jet Correlation Measurements in PHENIX

Abstract

Various 2-particle direct photon-hadron correlation strengths and yields in p+p and Au+Au collisions at sqrtsNN= 200 GeV are presented. The per-trigger yield of direct photon hadron pairs from direct-photon-jet correlations in is obtained by a statistical subtraction of the decay photon pairs from inclusive photon-hadron sample. The decay photon per-trigger yields are estimated from the measured π0-hadron by means of a Monte Carlo based calculation which takes into account decay kinematics and detector response. Under the assumption that the suppression is nearly pt independent using a specific averaging scheme, we find an average ratio of Au+Au to p+p per-trigger photon yields, IAA, consistent with the single particle suppression level Raa, which can be interpreted as a qualitative confirmation of the basic geometrical picture of jet suppression at RHIC. The application of the event by event photon isolation cuts in p+p results our highest precision measurement yet, and allows for precision studies of the baseline fragmentation function D(z), and well as a variable which is proportional to the apparent intrinsic kT, or non-zero transverse momentum of the original collision partons. With a model dependent extraction method, the average sqrt(<kT2>) at this center of mass energy in p+p is found to be in the vicinity of 3 GeV, consistent with analysis of di-hadron (di-jet) correlations. This and the improved precision in the isolated yields warrant further comparison with the baseline perturbative QCD (pQCD) calculations used in the various models of jet energy loss. Finally, we present a unique direct measurement of single prompt photons from jet fragmentation.