Quark Wigner Distributions Using Light-Front Wave Functions
Abstract
The quasi-probabilistic Wigner distributions are the quantum mechanical analog of the classical phase-space distributions. We investigate quark Wigner distributions for a quark state dressed with a gluon, which can be thought of as a simple composite and relativistic spin-1/2 state with a gluonic degree of freedom. We calculate various polarization configurations, namely unpolarized, longitudinally polarized and transversely polarized quark and the target state using light-front wave functions in this model. At leading twist, one can define 16 quark Wigner distributions, however, we obtain only 8 independent non-zero Wigner distributions in our model. We compare our results with other model calculations for the proton.
Cite
@article{arxiv.1701.00339,
title = {Quark Wigner Distributions Using Light-Front Wave Functions},
author = {Jai More and Asmita Mukherjee and Sreeraj Nair},
journal= {arXiv preprint arXiv:1701.00339},
year = {2017}
}
Comments
21 pages, 5 figures, version published by Phys. Rev. D