Charged kaon and proton multiplicities in semi-inclusive deep-inelastic scattering with 11 GeV electrons

Abstract

Measurements of SIDIS multiplicities for charged kaons and protons from proton and deuteron targets are reported on a grid of hadron kinematic variables 0.3<z<0.7 and Pt<0.6 GeV for leptonic variables 0.3<x<0.6 and 3<Q2<6 GeV2. Data were acquired in 2018-2019 at Jefferson Lab Hall C with 10.2 and 10.6~GeV electron beams impinging on 10-cm-long liquid hydrogen and deuterium targets. Electrons (hadrons) were detected in the HMS (SHMS) spectrometers. Multiplicities were fitted for each bin in (x,~Q2,~z,~Pt) as M0[1+A(ϕ*)+B(2ϕ*)]. The kaon kinematic range spans the regions where transverse-momentum-dependent factorization can be applied in SIDIS, and a `soft' central region where other processes are of critical importance. The kaon to pion ratios of M0 are in reasonable agreement with predictions using the DSS fragmentation functions for K+, but are mostly well below them for K-. The kaon azimuthal modulations are consistent with zero. The kinematic range for protons is centered on the `soft' central region. The proton-to-pion multiplicity ratios are more than an order-of-magnitude larger than TMD predictions at the lowest value of W2, decreasing to as little as a factor of two at the highest value of W2. No significant difference is observed between proton and deuteron targets. These trends are consistent with Lund Monte Carlo predictions. The proton values of A are consistently positive, with an average value of approximately 0.01, while B is consistent with zero.