Lund University Publications

How many interactions does it take to modify a jet

• Mark

Abstract

It is a continued open question how there can be an azimuthal anisotropy of high particles quantified by a sizable in p+Pb collisions when, at the same time, the nuclear modification factor is consistent with unity. We address this puzzle within the framework of the jet quenching model \textsc{Jewel}. In the absence of reliable medium models for small collision systems we use the number of scatterings per parton times the squared Debye mass to characterise the strength of medium modifications. Working with a simple brick medium model we show that, for small systems and not too strong modifications, and approximately scale with this quantity. We find that a comparatively large number of scatterings is needed to generate measurable jet... (More)

It is a continued open question how there can be an azimuthal anisotropy of high particles quantified by a sizable in p+Pb collisions when, at the same time, the nuclear modification factor is consistent with unity. We address this puzzle within the framework of the jet quenching model \textsc{Jewel}. In the absence of reliable medium models for small collision systems we use the number of scatterings per parton times the squared Debye mass to characterise the strength of medium modifications. Working with a simple brick medium model we show that, for small systems and not too strong modifications, and approximately scale with this quantity. We find that a comparatively large number of scatterings is needed to generate measurable jet quenching. Our results indicate that the corresponding to the observed could fall within the experimental uncertainty. Thus, while there is currently no contradiction with the measurements, our results indicate that and go hand-in-hand. We also discuss departures from scaling, in particular, due to sizable inelastic energy loss. (Less)