Method to characterize spinons as emergent elementary particles
Abstract
We develop a technique to directly study spinons (emergent spin S = 1/2 particles) in quantum spin models in any number of dimensions. The size of a spinon wave packet and of a bound pair (a triplon) are defined in terms of wave-function overlaps that can be evaluated by quantum Monte Carlo simulations. We show that the same information is contained in the spin-spin correlation function as well. We illustrate the method in one dimension. We confirm that spinons are well defined particles (have exponentially localized wave packet) in a valence-bond-solid state, are marginally defined (with power-law shaped wave packet) in the standard Heisenberg critical state, and are not well defined in an ordered N\'eel state (achieved in one dimension using long-range interactions).
Cite
@article{arxiv.1107.1439,
title = {Method to characterize spinons as emergent elementary particles},
author = {Ying Tang and Anders W. Sandvik},
journal= {arXiv preprint arXiv:1107.1439},
year = {2015}
}
Comments
5 pages, 5 figures, published version