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Symmetry, Integrability and Geometry: Methods and Applications, 2024, Volume 20, 077, 55 pp.
DOI: https://doi.org/10.3842/SIGMA.2024.077 (Mi sigma2079) 		 
Non-Stationary Difference Equation and Affine Laumon Space II: Quantum Knizhnik–Zamolodchikov Equation

Hidetoshi Awataa, Koji Hasegawab, Hiroaki Kannoac, Ryo Ohkawade, Shamil Shakirovfg, Jun'ichi Shiraishih, Yasuhiko Yamadai

a Graduate School of Mathematics, Nagoya University, Nagoya 464-8602, Japan
b Mathematical Institute, Tohoku University, Sendai 980-8578, Japan
c Kobayashi-Maskawa Institute, Nagoya University, Nagoya 464-8602, Japan
d Research Institute for Mathematical Sciences, Kyoto University, Kyoto 606-8502, Japan
e Osaka Central Advanced Mathematical Institute, Osaka Metropolitan University, Osaka 558-8585, Japan
f University of Geneva, Switzerland
g Institute for Information Transmission Problems, Moscow, Russia
h Graduate School of Mathematical Sciences, University of Tokyo, Komaba, Tokyo 153-8914, Japan
i Department of Mathematics, Kobe University, Rokko, Kobe 657-8501, Japan
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DOI: https://doi.org/10.3842/SIGMA.2024.077
Abstract: We show that Shakirov's non-stationary difference equation, when it is truncated, implies the quantum Knizhnik–Zamolodchikov ($q$-KZ) equation for $U_{\mathsf v}\bigl(A_1^{(1)}\bigr)$ with generic spins. Namely, we can tune mass parameters so that the Hamiltonian acts on the space of finite Laurent polynomials. Then the representation matrix of the Hamiltonian agrees with the $R$-matrix, or the quantum $6j$ symbols. On the other hand, we prove that the $K$ theoretic Nekrasov partition function from the affine Laumon space is identified with the well-studied Jackson integral solution to the $q$-KZ equation. Combining these results, we establish that the affine Laumon partition function gives a solution to Shakirov's equation, which was a conjecture in our previous paper. We also work out the base-fiber duality and four-dimensional limit in relation with the $q$-KZ equation.
Keywords: affine Laumon space, quantum affine algebra, non-stationary difference equation, quantum Knizhnik–Zamolodchikov equation.
Funding agency Grant number
Japan Society for the Promotion of Science 18K03274
23K03087
21K03180
19K03512
19K03530
22H01116
Osaka Central Advanced Mathematical Institute JPMXP0619217849
Research Institute for Mathematical Sciences, an International Joint Usage/Research Center (Kyoto University)
Our work is supported in part by Grants-in-Aid for Scientific Research (Kakenhi): 18K03274 (H.K.), 23K03087 (H.K.), 21K03180 (R.O.), 19K03512 (J.S.), 19K03530 (J.S.) and 22H01116 (Y.Y.). The work of R.O. was partly supported by Osaka Central Advanced Mathematical Institute: MEXT Joint Usage/Research Center on Mathematics and Theoretical Physics JPMXP0619217849, and the Research Institute for Mathematical Sciences, an International Joint Usage/Research Center located in Kyoto University.
Received: November 6, 2023; in final form August 7, 2024; Published online August 22, 2024
Document Type: Article
MSC: 14H70, 81R12, 81T40, 81T60
Language: English
Citation: Hidetoshi Awata, Koji Hasegawa, Hiroaki Kanno, Ryo Ohkawa, Shamil Shakirov, Jun'ichi Shiraishi, Yasuhiko Yamada, “Non-Stationary Difference Equation and Affine Laumon Space II: Quantum Knizhnik–Zamolodchikov Equation”, SIGMA, 20 (2024), 077, 55 pp.
Citation in format AMSBIB
\Bibitem{AwaHasKan24}
\by Hidetoshi~Awata, Koji~Hasegawa, Hiroaki~Kanno, Ryo~Ohkawa, Shamil~Shakirov, Jun'ichi~Shiraishi, Yasuhiko~Yamada
\paper Non-Stationary Difference Equation and Affine Laumon Space II: Quantum Knizhnik--Zamolodchikov Equation
\jour SIGMA
\yr 2024
\vol 20
\papernumber 077
\totalpages 55
\mathnet{http://mi.mathnet.ru/sigma2079}
\crossref{https://doi.org/10.3842/SIGMA.2024.077}
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