Bethe Ansatz, Inverse Scattering Transform and Tropical Riemann Theta Function in a Periodic Soliton Cellular Automaton for A<sub>n</sub><sup>(1)</sup>

Kuniba, Atsuo

doi:10.3842/sigma.2010.013

Cited by 12 publications

(23 citation statements)

References 40 publications

(209 reference statements)

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“…(11.7)] at l = ∞. It is established quite generally that the current due to solitons coincides with the time average of the carrier current [27,Prop.4.3]. The proof elucidates a new link between the effective speed and the period matrix B (4.6) which appeared originally in the tropical Riemann theta function [27, eq.(4.14)].…”

Section: Arxiv:200401569v2 [Math-ph] 16 Apr 2020mentioning

confidence: 86%

Generalized hydrodynamics in box-ball system

Kuniba¹,

Misguich²,

Pasquier³

2020

J. Phys. A: Math. Theor.

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Box-ball system (BBS) is a prominent example of integrable cellular automata in one dimension connected to quantum groups, Bethe ansatz, ultradiscretization, tropical geometry and so forth. In this paper we study the generalized Gibbs ensemble of BBS soliton gas by thermodynamic Bethe ansatz and generalized hydrodynamics. The results include the solution to the speed equation for solitons, an intriguing connection of the effective speed with the period matrix of the tropical Riemann theta function, an explicit description of the density plateaux that emerge from domain wall initial conditions including their diffusive corrections.

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Section: Arxiv:200401569v2 [Math-ph] 16 Apr 2020mentioning

confidence: 86%

Generalized hydrodynamics in box-ball system

Kuniba¹,

Misguich²,

Pasquier³

2020

J. Phys. A: Math. Theor.

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“…Another obvious direction of a future research is periodic systems. The generalized BBS for A (1) n with the quantum space (B (1) 1 ) ⊗L has been studied under the periodic boundary condition [28]. It also has an n-tuple of Young diagrams as a label of iso-level sets for which a Fermionic formula [28, eq.…”

Section: Examplementioning

confidence: 99%

Randomized box–ball systems, limit shape of rigged configurations and thermodynamic Bethe ansatz

2018

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We introduce a probability distribution on the set of states in a generalized box-ball system associated with Kirillov-Reshetikhin (KR) crystals of type A (1) n . Their conserved quantities induce n-tuple of random Young diagrams in the rigged configurations. We determine their limit shape as the system gets large by analyzing the Fermionic formula by thermodynamic Bethe ansatz. The result is expressed as a logarithmic derivative of a deformed character of the KR modules and agrees with the stationary local energy of the associated Markov process of carriers.

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“…When M = 1, the relation is explained at the level of tropical Jacobian [2]. We expect that our conjectures on T(M, N ) also account for the tropical geometrical aspects of the recent results [10] on the pBBS of M kinds of balls.…”

Section: Introductionmentioning

confidence: 81%

Tropical Spectral Curves, Fay's Trisecant Identity, and Generalized Ultradiscrete Toda Lattice

Inoue

Iwao

2010

New Trends in Quantum Integrable Systems

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Bethe Ansatz, Inverse Scattering Transform and Tropical Riemann Theta Function in a Periodic Soliton Cellular Automaton for A_n⁽¹⁾

Cited by 12 publications

References 40 publications

Generalized hydrodynamics in box-ball system

Generalized hydrodynamics in box-ball system

Randomized box–ball systems, limit shape of rigged configurations and thermodynamic Bethe ansatz

Tropical Spectral Curves, Fay's Trisecant Identity, and Generalized Ultradiscrete Toda Lattice

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Bethe Ansatz, Inverse Scattering Transform and Tropical Riemann Theta Function in a Periodic Soliton Cellular Automaton for An(1)

Cited by 12 publications

References 40 publications

Generalized hydrodynamics in box-ball system

Generalized hydrodynamics in box-ball system

Randomized box–ball systems, limit shape of rigged configurations and thermodynamic Bethe ansatz

Tropical Spectral Curves, Fay's Trisecant Identity, and Generalized Ultradiscrete Toda Lattice

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Bethe Ansatz, Inverse Scattering Transform and Tropical Riemann Theta Function in a Periodic Soliton Cellular Automaton for A_n⁽¹⁾