Spinning Particles, Braid Groups and Solitons
摘要
We develop general techniques for computing the fundamental group of the configuration space of identical particles, possessing a generic internal structure, moving on a manifold . This group generalizes the -string braid group of which is the relevant object for structureless particles. In particular, we compute these generalized braid groups for particles with an internal spin degree of freedom on an arbitrary . A study of their unitary representations allows us to determine the available spectrum of spin and statistics on in a certain class of quantum theories. One interesting result is that half-integral spin quantizations are obtained on certain manifolds having an obstruction to an ordinary spin structure. We also compare our results to corresponding ones for topological solitons in -invariant nonlinear sigma models in -dimensions, generalizing recent studies in two spatial dimensions. Finally, we prove that there exists a general scalar quantum theory yielding half-integral spin for particles (or solitons) on a closed, orientable manifold if and only if possesses a structure.
引用
@article{arxiv.hep-th/9401074,
title = {Spinning Particles, Braid Groups and Solitons},
author = {Lee Brekke and Michael J. Dugan and Tom D. Imbo},
journal= {arXiv preprint arXiv:hep-th/9401074},
year = {2009}
}
备注
harvmac, 34 pages, HUTP-93/A037; UICHEP-TH/93-18; BUHEP-93-29