Solutions of the Yang–Baxter equation for (n + 1) (2n + 1)-vertex models using a differential approach

Vieira, R. S.; Lima-Santos, A.

doi:10.1088/1742-5468/abf7be

Cited by 4 publications

(5 citation statements)

References 51 publications

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“…We remark that condition (6) comes from the form of the ansatz (5). However, a similar condition was derived from the algebraic BA for the 15-vertex model [31]. These two cases are linked, as with certain choices of parameters, the 15-vertex model can be mapped to a twospecies PASEP with overtaking.…”

Section: Ba Solutionmentioning

confidence: 84%

“…An answer to this problem is through the Yang-Baxter equations (YBEs), which can be interpreted as consistency conditions for the BA; indeed, by checking whether the YBE hold on a general class of models, it is possible to select values of the parameters for which exact solutions exist. Though this approach was used for quantum [30] and vertex model [31], it has been applied less systematically to study classical interacting particles systems, see for example [27,[32][33][34].…”

Section: Introductionmentioning

confidence: 99%

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Integrability of two-species partially asymmetric exclusion processes

Lobaskin

Evans²,

Mallick³

2023

J. Phys. A: Math. Theor.

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We work towards the classification of all one-dimensional exclusion processes with two species of particles that can be solved by a nested coordinate Bethe Ansatz. Using the Yang-Baxter equations, we obtain conditions on the model parameters that ensure that the underlying system is integrable. Three classes of integrable models are thus found. Of these, two classes are well known in literature, but the third has not been studied until recently, and never in the context of the Bethe ansatz. The Bethe equations are derived for the latter model as well as for the associated dynamics encoding the large deviation of the currents.

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Section: Ba Solutionmentioning

confidence: 84%

Section: Introductionmentioning

confidence: 99%

Integrability of two-species partially asymmetric exclusion processes

Lobaskin

Evans²,

Mallick³

2023

J. Phys. A: Math. Theor.

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“…Zamolodchikov tetrahedral algebra, as well as constant YBE solutions were shown in [18,19]. More recently a classification of {4-8}-vertex via differential approach was given in [20,21]. Other crucial constraint that will appear more efficient for derivation of properties and algebra of models in the non-additive sector 5, 6, 7 -is the braiding algebra realised by intertwining the monodromy T (u) and the R-matrix, R 0 0(u − v)T 0 (u)T 0(v) = T 0(v)T 0 (u)R 0 0(u − v) (2.25) where the monodromy T 0,{1,...,L} (u) acts on L physical spaces and one extra space is auxiliary, which we can set through the sequence of the Lax matrices L as can noticed from Fig.…”

Section: )mentioning

confidence: 99%

Section: C4 8vb Limitsmentioning

confidence: 99%

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Automorphic Symmetries, String integrable structures and Deformations

Pribytok¹

2022

Preprint

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We address the novel structures arising in quantum and string integrable theories, as well as construct methods to obtain them and provide further analysis. Specifically, we implement the automorphic symmetries on periodic lattice systems for obtaining integrable hierarchies, whose commutativity along with integrable transformations induces a generating structure of integrable classes. This prescription is first applied to 2-dim and 4-dim setups, where we find the new sl 2 sector, su(2) ⊕ su(2) with superconductive modes, Generalised Hubbard type classes and more. The corresponding 2-and 4-dim R matrices are resolved through perturbation theory, that allows to recover an exact result. We then construct a boost recursion that allows to address the systems, whose R-/S-matrices exhibit arbitrary spectral dependence, that also is an apparent property of the scattering operators in AdS integrability. It is then possible to implement the last for Hamiltonian Ansätze in D = 2, 3, 4, which leads to new models in all dimensions. We also provide a method based on a coupled differential system that allows to resolve for R matrices exactly. Importantly, one can isolate a special class of models of non-difference form in 2-dim case (6vB/8vB), which provides a new structure consistently arising in AdS 3 and AdS 2 string backgrounds. We prove that these classes can be represented as deformations of the AdS {2,3} models. We also work out that the latter satisfy free fermion constraint, braiding unitarity, crossing and exhibit deformed algebraic structure that shares certain properties with AdS 3 × S 3 × M 4 and AdS 2 × S 2 × T 6 models. The embedding and mappings of known AdS {2,3} models to 6vB/8vB deformations are demonstrated, along with a discussion on the associated candidates of sigma models.

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Zeroing Neural Network Approaches Based on Direct and Indirect Methods for Solving the Yang–Baxter-like Matrix Equation

et al. 2022

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This research introduces three novel zeroing neural network (ZNN) models for addressing the time-varying Yang–Baxter-like matrix equation (TV-YBLME) with arbitrary (regular or singular) real time-varying (TV) input matrices in continuous time. One ZNN dynamic utilizes error matrices directly arising from the equation involved in the TV-YBLME. Moreover, two ZNN models are proposed using basic properties of the YBLME, such as the splitting of the YBLME and sufficient conditions for a matrix to solve the YBLME. The Tikhonov regularization principle enables addressing the TV-YBLME with an arbitrary input real TV matrix. Numerical experiments, including nonsingular and singular TV input matrices, show that the suggested models deal effectively with the TV-YBLME.

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Solutions of the Yang–Baxter equation for (n + 1) (2n + 1)-vertex models using a differential approach

Cited by 4 publications

References 51 publications

Integrability of two-species partially asymmetric exclusion processes

Integrability of two-species partially asymmetric exclusion processes

Automorphic Symmetries, String integrable structures and Deformations

Zeroing Neural Network Approaches Based on Direct and Indirect Methods for Solving the Yang–Baxter-like Matrix Equation

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