Your search keyword '"Frassek, Rouven"' showing total 3 results

1. Exact solution of an integrable non-equilibrium particle system.

Author

Frassek, Rouven and Giardinà, Cristian

Subjects

*HEISENBERG model, *QUANTUM scattering, *COMPUTER systems, *INVERSE scattering transform, *FINITE, The, *FACTORIALS

Abstract

We consider the integrable family of symmetric boundary-driven interacting particle systems that arise from the non-compact XXX Heisenberg model in one dimension with open boundaries. In contrast to the well-known symmetric exclusion process, the number of particles at each site is unbounded. We show that a finite chain of N sites connected at its ends to two reservoirs can be solved exactly, i.e., the factorial moments of the non-equilibrium steady-state can be written in the closed form for each N. The solution relies on probabilistic arguments and techniques inspired by integrable systems. It is obtained in two steps: (i) the introduction of a dual absorbing process reducing the problem to a finite number of particles and (ii) the solution of the dual dynamics exploiting a symmetry obtained from the quantum inverse scattering method. Long-range correlations are computed in the finite-volume system. The exact solution allows us to prove by a direct computation that, in the thermodynamic limit, the system approaches local equilibrium. A by-product of the solution is the algebraic construction of a direct mapping between the non-equilibrium steady state and the equilibrium reversible measure. [ABSTRACT FROM AUTHOR]

Published

2022

2. Non-compact Quantum Spin Chains as Integrable Stochastic Particle Processes.

Author

Frassek, Rouven, Giardinà, Cristian, and Kurchan, Jorge

Subjects

*STOCHASTIC processes, *YANG-Mills theory, *NONEQUILIBRIUM statistical mechanics, *PROBABILITY theory, *STOCHASTIC systems, *QUANTUM scattering

Abstract

In this paper we discuss a family of models of particle and energy diffusion on a one-dimensional lattice, related to those studied previously in Sasamoto and Wadati (Phys Rev E 58:4181–4190, 1998), Barraquand and Corwin (Probab Theory Relat Fields 167(3–4):1057–1116, 2017) and Povolotsky (J Phys A 46(46):465205, 2013) in the context of KPZ universality class. We show that they may be mapped onto an integrable sl (2) Heisenberg spin chain whose Hamiltonian density in the bulk has been already studied in the AdS/CFT and the integrable system literature. Using the quantum inverse scattering method, we study various new aspects, in particular we identify boundary terms, modeling reservoirs in non-equilibrium statistical mechanics models, for which the spin chain (and thus also the stochastic process) continues to be integrable. We also show how the construction of a "dual model" of probability theory is possible and useful. The fluctuating hydrodynamics of our stochastic model corresponds to the semiclassical evolution of a string that derives from correlation functions of local gauge invariant operators of N = 4 super Yang–Mills theory (SYM), in imaginary-time. As any stochastic system, it has a supersymmetric completion that encodes for the thermal equilibrium theorems: we show that in this case it is equivalent to the sl (2 | 1) superstring that has been derived directly from N = 4 SYM. [ABSTRACT FROM AUTHOR]

Published

2020

3. Oscillator construction of Q-operators

Author

Frassek, Rouven, Łukowski, Tomasz, Meneghelli, Carlo, and Staudacher, Matthias

Subjects

*OPERATOR theory, *SUPERSYMMETRY, *QUANTUM scattering, *HASSE diagrams, *YANG-Baxter equation, *BOSONS, *FERMIONS, *OSCILLATIONS

Abstract

Abstract: We generalize our recent explicit construction of the full hierarchy of Baxter Q-operators of compact spin chains with symmetry to the supersymmetric case . The method is based on novel degenerate solutions of the graded Yang–Baxter equation, leading to an amalgam of bosonic and fermionic oscillator algebras. Our approach is fully algebraic, and leads to the exact solution of the associated compact spin chains while avoiding Bethe ansatz techniques. It furthermore elucidates the algebraic and combinatorial structures underlying the system of nested Bethe equations. Finally, our construction naturally reproduces the representation, due to Z. Tsuboi, of the hierarchy of Baxter Q-operators in terms of hypercubic Hasse diagrams. [Copyright &y& Elsevier]

Published

2011