English

A New SU(2) Anomaly

High Energy Physics - Theory 2019-05-09 v4 Strongly Correlated Electrons Mathematical Physics math.MP

Abstract

A familiar anomaly affects SU(2) gauge theory in four dimensions: a theory with an odd number of fermion multiplets in the spin 1/2 representation of the gauge group, and more generally in representations of spin 2r+1/2, is inconsistent. We describe here a more subtle anomaly that can affect SU(2) gauge theory in four dimensions under the condition that fermions transform with half-integer spin under SU(2) and bosons with integer spin. Such a theory, formulated in a way that requires no choice of spin structure, and with an odd number of fermion multiplets in representations of spin 4r+3/2, is inconsistent. The theory is consistent if one picks a spin or spin_c structure. Under Higgsing to U(1), the new SU(2) anomaly reduces to a known anomaly of "all-fermion electrodynamics." Like that theory, an SU(2) theory with an odd number of fermion multiplets in representations of spin 4r+3/2 can provide a boundary state for a five-dimensional gapped theory whose partition function on a closed five-manifold Y is (1)Yw2w3(-1)^{\int_Y w_2w_3}. All statements have analogs with SU(2) replaced by Sp(2N). There is also an analog in five dimensions.

Keywords

Cite

@article{arxiv.1810.00844,
  title  = {A New SU(2) Anomaly},
  author = {Juven Wang and Xiao-Gang Wen and Edward Witten},
  journal= {arXiv preprint arXiv:1810.00844},
  year   = {2019}
}

Comments

39 pp, added references and minor typos corrected, added comment on dynamics, updated reference in this version

R2 v1 2026-06-23T04:24:44.610Z