摘要
Jet measurement is an ideal probe to explore the properties of the hot dense matter created in ultra- relativistic heavy-ion collisions. Recent results at the LHC show that large angle radiation is non-negligible, but the mechanisms and phenomenology of large angle radiation are still unclear and hotly debated. Considering the coexistence and competition of different physics mechanisms qualitatively, it is assumed that the radiation angle is enhanced randomly over a wide range based on the collinear approximation. Its effects on di-jet momentum imbalance, jet fragmentation function and jet shape are studied in pp collisions at 7 TeV. The results show that di-jet asymmetry is insensitive to large angle radiation, while jet shape and jet fragmentation functions are more sensitive and could explain experimental data well. We conclude that de-collimated radiation cannot be ignored for soft jets, and there is a contribution from large angle radiation (Ф 〉 0.7) of about 8%, which is significant for jet intrinsic structure measurement at PT,jeT 〈80 GeV/c.
Jet measurement is an ideal probe to explore the properties of the hot dense matter created in ultra- relativistic heavy-ion collisions. Recent results at the LHC show that large angle radiation is non-negligible, but the mechanisms and phenomenology of large angle radiation are still unclear and hotly debated. Considering the coexistence and competition of different physics mechanisms qualitatively, it is assumed that the radiation angle is enhanced randomly over a wide range based on the collinear approximation. Its effects on di-jet momentum imbalance, jet fragmentation function and jet shape are studied in pp collisions at 7 TeV. The results show that di-jet asymmetry is insensitive to large angle radiation, while jet shape and jet fragmentation functions are more sensitive and could explain experimental data well. We conclude that de-collimated radiation cannot be ignored for soft jets, and there is a contribution from large angle radiation (Ф 〉 0.7) of about 8%, which is significant for jet intrinsic structure measurement at PT,jeT 〈80 GeV/c.
作者
Ren-Zhuo Wan
Si-Yuan Wang
Shuang Li
Yi-Ming Feng
Feng Liu
Fan Yang
Dai-Cui Zhou
万仁卓;王思源;李双;冯绎铭;刘丰;杨帆;周代翠(Nano-Optical Material and Storage Device Research Center, School of Electronic and Electrical Engineering,Wuhan Textile University;College of Science, China Three Gorges University;Key Laboratory of Quark and Lepton Physics (MOE) and Institute of Particle Physics,Central China Normal University)
基金
Supported by National Natural Science Foundation of China(11505130,11775097,IRG1152106,11475068)
CTGU(1910103,B2018023)
