The 1-Jettiness DIS event shape: NNLL + NLO results

Abstract

We present results for the complete NNLL+NLO (~ αs) 1-jettiness (τ1) event shape distribution for single jet (J) production in electron-nucleus (NA) collisions e- + NA e- + J + X, in the deep inelastic scattering (DIS) region where the hard scale is set by the jet transverse momentum PJT. These results cover the entire τ1-spectrum including the resummation (τ1<<PJT) and fixed-order (τ1~ PJT) perturbative QCD regions. They incorporate non-perturbative soft radiation effects, the anti-kT jet algorithm in the fixed-order calculation, and a smooth matching between the resummation and fixed-order perturbative QCD regions. The matching smoothly connects the spectrum in the resummation region, which can be computed without reference to an external jet algorithm, and the fixed-order region where an explicit jet algorithm must be specified. Our code, used for generating the numerical results, is flexible enough to incorporate different jet algorithms for the fixed-order calculation. We also perform a jet shape analysis, defined within the 1-jettiness framework, which allows one to control the amount of radiation included in the definition of the final state jet. This formalism can allow for detailed studies of jet energy-loss mechanisms and nuclear medium effects. The analysis presented here can be used for precision studies of QCD and as a probe of nuclear dynamics using data collected at HERA and in proposed future electron-ion colliders such as the EIC and the LHeC.