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Collision rate ansatz for quantum integrable systems

Takato Yoshimura, Herbert Spohn

2020SciPost Physics49 citationsDOIOpen Access PDF

Abstract

For quantum integrable systems the currents averaged with respect to a generalized Gibbs ensemble are revisited. An exact formula is known, which we call ``collision rate ansatz". While there is considerable work to confirm this ansatz in various models, our approach uses the symmetry of the current-charge susceptibility matrix, which holds in great generality. Besides some technical assumptions, the main input is the availability of a self-conserved current, i.e. some current which is itself conserved. The collision rate ansatz is then derived. The argument is carried out in detail for the Lieb-Liniger model and the Heisenberg XXZ chain. It is also explained how from the existence of a boost operator a self-conserved current can be deduced.

Topics & Concepts

Integrable systemAnsatzBethe ansatzConserved quantityCurrent (fluid)QuantumConserved currentSymmetry (geometry)PhysicsOperator (biology)CollisionMathematical physicsStatistical physicsQuantum mechanicsMathematicsComputer scienceChemistryLagrangianGeometryTranscription factorNoether's theoremGeneComputer securityBiochemistryThermodynamicsRepressorQuantum many-body systemsModel Reduction and Neural NetworksAlgebraic structures and combinatorial models