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Related papers: SU(N) polynomial integrals and some applications

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In this paper we calculate a number of integrals over SU(N) of interest in Hamiltonian Lattice Gauge Theory calculations.

High Energy Physics - Lattice · Physics 2008-02-26 Jesse Carlsson

A method for computing integrals of polynomial functions on compact symmetric spaces is given. Those integrals are expressed as sums of functions on symmetric groups.

Probability · Mathematics 2013-07-04 Sho Matsumoto

We develop a flow-based sampling algorithm for $SU(N)$ lattice gauge theories that is gauge-invariant by construction. Our key contribution is constructing a class of flows on an $SU(N)$ variable (or on a $U(N)$ variable by a simple…

The standard U(N) and SU(N) integrals are calculated in the large N limit. Our main finding is that for an important class of integrals this limit is different for two groups. We describe the critical behaviour of SU(N) models and discuss…

High Energy Physics - Lattice · Physics 2020-10-28 O. Borisenko , V. Chelnokov , S. Voloshyn

This paper contains a brief sketch of some methods that can be used to obtain the Wigner function for a number of systems. We give an overview of the technique as it is applied to some simple differential systems related to diffusion…

Quantum Physics · Physics 2023-06-05 P. G. Morrison

We consider solvable matrix models. We generalize Harish-Chandra-Itzykson-Zuber and certain other integrals (Gross-Witten integral and integrals over complex matrices) using the notion of tau function of matrix argument. In this case one…

Mathematical Physics · Physics 2007-05-23 A. Yu. Orlov

We give a Fourier-type formula for computing the orthogonal Weingarten formula. The Weingarten calculus was introduced as a systematic method to compute integrals of polynomials with respect to Haar measure over classical groups. Although a…

Mathematical Physics · Physics 2019-02-27 Benoît Collins , Sho Matsumoto

Integration of polynomials over the classical groups of unitary, orthogonal and symplectic matrices can be reduced to basic building blocks known as Weingarten functions. We present an elementary derivation of these functions.

Mathematical Physics · Physics 2015-01-22 Marcel Novaes

We present a set of N-dimensional functions, based on generalized SU(N)-symmetric coherent states, that represent finite-dimensional Wigner functions, Q-functions, and P-functions. We then show the fundamental properties of these functions…

Quantum Physics · Physics 2015-05-30 Todd Tilma , Kae Nemoto

The Wegner $Z_2$ gauge theory-$Z_2$ Ising spin model duality in $(2+1)$ dimensions is revisited and derived through a series of canonical transformations. The Kramers-Wannier duality is similarly obtained. The Wegner $Z_2$ gauge-spin…

High Energy Physics - Lattice · Physics 2016-11-21 Manu Mathur , T. P. Sreeraj

We present a family of solvable multi-matrix models associated with an arbitrary embedded graph $\Gamma$ with a single vertex. The graph with $n$ edges is equipped with $2n$ corner matrices. The partition function of each member of the…

Mathematical Physics · Physics 2025-12-30 A. Yu. Orlov

We define the concept of weighted lattice polynomial functions as lattice polynomial functions constructed from both variables and parameters. We provide equivalent forms of these functions in an arbitrary bounded distributive lattice. We…

Rings and Algebras · Mathematics 2009-02-23 Jean-Luc Marichal

Path integral contour deformations have been shown to mitigate sign and signal-to-noise problems associated with phase fluctuations in lattice field theories. We define a family of contour deformations applicable to $SU(N)$ lattice gauge…

High Energy Physics - Lattice · Physics 2021-06-02 William Detmold , Gurtej Kanwar , Henry Lamm , Michael L. Wagman , Neill C. Warrington

We obtain a sequence of alternative representations for the partition function of pure SU(N) or U(N) lattice gauge theory with the Wilson plaquette action, using the method of Hubbard-Stratonovich transformations. In particular, we are able…

High Energy Physics - Lattice · Physics 2015-06-23 Helvio Vairinhos , Philippe de Forcrand

We revise the symmetries of the Zernike polynomials that determine the Lie algebra su(1,1) + su(1,1). We show how they induce discrete as well continuous bases that coexist in the framework of rigged Hilbert spaces. We also discuss some…

Mathematical Physics · Physics 2019-10-02 Enrico Celeghini , Manuel Gadella , Mariano A del Olmo

The determination of entanglement measures in SU(N) gauge theories is a non-trivial task. With the so-called "replica trick", a family of entanglement measures, known as "R\'enyi entropies", can be determined with lattice Monte Carlo.…

High Energy Physics - Lattice · Physics 2022-11-02 Tobias Rindlisbacher , Niko Jokela , Arttu Pönni , Kari Rummukainen , Ahmed Salami

It is well-known that the SU(2) quantum Racah coefficients or the Wigner $6j$ symbols have a closed form expression which enables the evaluation of any knot or link polynomials in SU(2) Chern-Simons field theory. Using isotopy equivalence…

High Energy Physics - Theory · Physics 2013-01-11 Zodinmawia , P. Ramadevi

An approximate technique for performing nonperturbative calculations in quantum SU(3) gauge theory is presented. One aspect of this nonperturbative method is the breaking down $SU(3) \to SU(2) + coset$. The procedure also uses some aspects…

High Energy Physics - Phenomenology · Physics 2009-11-10 Vladimir Dzhunushaliev , Douglas Singleton , Tatyana Nikulicheva

Implicit score matching provides a computationally efficient approach for training diffusion models and generating high-quality samples from complex distributions. In this work, we develop a score-matching framework for SU(N) lattice gauge…

High Energy Physics - Lattice · Physics 2026-05-08 Javad Komijani , Marina K. Marinkovic , Lara Turgut

We present a progress report on the use of normalizing flows for generating gauge field configurations in pure SU(N) gauge theories. We discuss how the singular value decomposition can be used to construct gauge-invariant quantities, which…

High Energy Physics - Lattice · Physics 2025-02-04 Javad Komijani , Marina K. Marinkovic
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