Nonperturbative light-front Hamiltonian methods
Abstract
We examine the current state-of-the-art in nonperturbative calculations done with Hamiltonians constructed in light-front quantization of various field theories. The language of light-front quantization is introduced, and important (numerical) techniques, such as Pauli--Villars regularization, discrete light-cone quantization, basis light-front quantization, the light-front coupled-cluster method, the renormalization group procedure for effective particles, sector-dependent renormalization, and the Lanczos diagonalization method, are surveyed. Specific applications are discussed for quenched scalar Yukawa theory, theory, ordinary Yukawa theory, supersymmetric Yang--Mills theory, quantum electrodynamics, and quantum chromodynamics. The content should serve as an introduction to these methods for anyone interested in doing such calculations and as a rallying point for those who wish to solve quantum chromodynamics in terms of wave functions rather than random samplings of Euclidean field configurations.
Cite
@article{arxiv.1606.08348,
title = {Nonperturbative light-front Hamiltonian methods},
author = {J. R. Hiller},
journal= {arXiv preprint arXiv:1606.08348},
year = {2016}
}
Comments
67 pages, 14 figures; review to appear in Progress in Particle and Nuclear Physics