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Main Authors: Mulokwe, Mbavhalelo, Zoubos, Konstantinos
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2403.08531
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author Mulokwe, Mbavhalelo
Zoubos, Konstantinos
author_facet Mulokwe, Mbavhalelo
Zoubos, Konstantinos
contents With a view towards higher-spin applications, we study the partition function of a free complex fermion in 2d CFT, restricted to the neutral (zero fermion number) sector. This restriction leads to a partial theta function with a combinatoric interpretation in terms of Dyson's crank of a partition. More crucially, this partition function can be expressed in terms of a q-hypergeometric function with quantum modular properties. This allows us to find its high-temperature asymptotics, including subleading terms which agree with, but also go beyond, what one obtains by imposing neutrality thermodynamically through a chemical potential. We evaluate the asymptotic density of states for this neutral partition function, including the first few subleading terms. Our results should be extendable to more fermions, as well as to higher-spin chemical potentials, which would be of relevance to the higher-spin/minimal model correspondence.
format Preprint
id arxiv_https___arxiv_org_abs_2403_08531
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Free fermions, neutrality and modular transformations
Mulokwe, Mbavhalelo
Zoubos, Konstantinos
High Energy Physics - Theory
Mathematical Physics
With a view towards higher-spin applications, we study the partition function of a free complex fermion in 2d CFT, restricted to the neutral (zero fermion number) sector. This restriction leads to a partial theta function with a combinatoric interpretation in terms of Dyson's crank of a partition. More crucially, this partition function can be expressed in terms of a q-hypergeometric function with quantum modular properties. This allows us to find its high-temperature asymptotics, including subleading terms which agree with, but also go beyond, what one obtains by imposing neutrality thermodynamically through a chemical potential. We evaluate the asymptotic density of states for this neutral partition function, including the first few subleading terms. Our results should be extendable to more fermions, as well as to higher-spin chemical potentials, which would be of relevance to the higher-spin/minimal model correspondence.
title Free fermions, neutrality and modular transformations
topic High Energy Physics - Theory
Mathematical Physics
url https://arxiv.org/abs/2403.08531