Using the model of Nambu and Jona-Lasinio to provide a microscopic description of both the structure of the nucleon and of the quark to hadron elementary fragmentation functions, we investigate the transverse-momentum dependence of the unpolarized quark distributions in the nucleon and of the quark to pion and kaon fragmentation functions. The transverse-momentum dependence of the fragmentation functions is determined within a Monte Carlo framework, with the notable result that the average $P_{\perp }^2$ of the produced kaons is significantly larger than that of the pions. We also find that $⟨P_{\perp }^2⟩$ has a sizable $z$ dependence, in contrast with the naive Gaussian ansatz for the fragmentation functions. Diquark correlations in the nucleon give rise to a nontrivial flavor dependence in the unpolarized transverse-momentum-dependent quark distribution functions. The $⟨k_T^2⟩$ of the quarks in the nucleon are also found to have a sizable $x$ dependence. Finally, these results are used as input to a Monte Carlo event generator for semi-inclusive deep inelastic scattering (SIDIS), which is used to determine the average transverse momentum squared of the produced hadrons measured in SIDIS, namely, $⟨P_T^2⟩$. Again, we find that the average $P_T^2$ of the produced kaons in SIDIS is significantly larger than that of the pions and in each case $⟨P_T^2⟩$ has a sizable $z$ dependence.

• Received 12 November 2011

DOI:https://doi.org/10.1103/PhysRevD.85.014021