2d partition function in Ω-background and vortex/instanton correspondence

Toshiaki Fujimori; Taro Kimura; Muneto Nitta; Keisuke Ohashi

doi:10.1007/JHEP12(2015)110

2d partition function in Ω-background and vortex/instanton correspondence

Toshiaki Fujimori, Taro Kimura, Muneto Nitta, Keisuke Ohashi

商学部

研究成果: Article › 査読

17 被引用数 (Scopus)

抄録

Abstract: We derive the exact vortex partition function in 2d N=(2,2) gauge theory on the Ω-background, applying the localization scheme in the Higgs phase. We show that the partition function at a finite Ω-deformation parameter ϵ satisfies a system of differential equations, which can be interpreted as a quantized version of the twisted F-term equations characterizing the SUSY vacua. Using the differential equations derived in this paper, we show the correspondence between the partition function of the two-dimensional vortex string worldsheet theory and the Nekrasov partition function at the root of Higgs branch of the four-dimensional N=2 theory with two Ω-deformation parameters (ϵ₁, ϵ₂).

本文言語	English
論文番号	110
ページ（範囲）	1-41
ページ数	41
ジャーナル	Journal of High Energy Physics
巻	2015
号	12
DOI	https://doi.org/10.1007/JHEP12(2015)110
出版ステータス	Published - 2015 12月 1

ASJC Scopus subject areas

核物理学および高エネルギー物理学

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10.1007/JHEP12(2015)110

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abstract = "Abstract: We derive the exact vortex partition function in 2d N=(2,2) gauge theory on the Ω-background, applying the localization scheme in the Higgs phase. We show that the partition function at a finite Ω-deformation parameter ϵ satisfies a system of differential equations, which can be interpreted as a quantized version of the twisted F-term equations characterizing the SUSY vacua. Using the differential equations derived in this paper, we show the correspondence between the partition function of the two-dimensional vortex string worldsheet theory and the Nekrasov partition function at the root of Higgs branch of the four-dimensional N=2 theory with two Ω-deformation parameters (ϵ1, ϵ2).",

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AU - Fujimori, Toshiaki

AU - Kimura, Taro

AU - Nitta, Muneto

AU - Ohashi, Keisuke

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N2 - Abstract: We derive the exact vortex partition function in 2d N=(2,2) gauge theory on the Ω-background, applying the localization scheme in the Higgs phase. We show that the partition function at a finite Ω-deformation parameter ϵ satisfies a system of differential equations, which can be interpreted as a quantized version of the twisted F-term equations characterizing the SUSY vacua. Using the differential equations derived in this paper, we show the correspondence between the partition function of the two-dimensional vortex string worldsheet theory and the Nekrasov partition function at the root of Higgs branch of the four-dimensional N=2 theory with two Ω-deformation parameters (ϵ1, ϵ2).

AB - Abstract: We derive the exact vortex partition function in 2d N=(2,2) gauge theory on the Ω-background, applying the localization scheme in the Higgs phase. We show that the partition function at a finite Ω-deformation parameter ϵ satisfies a system of differential equations, which can be interpreted as a quantized version of the twisted F-term equations characterizing the SUSY vacua. Using the differential equations derived in this paper, we show the correspondence between the partition function of the two-dimensional vortex string worldsheet theory and the Nekrasov partition function at the root of Higgs branch of the four-dimensional N=2 theory with two Ω-deformation parameters (ϵ1, ϵ2).

KW - Field Theories in Lower Dimensions

KW - Solitons Monopoles and Instantons

KW - Supersymmetric gauge theory

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2d partition function in Ω-background and vortex/instanton correspondence

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