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Generalized Gauge Transformation with PT$PT$‐Symmetric Non‐Unitary Operator and Classical Correspondence of Non‐Hermitian Hamiltonian for a Periodically Driven System

Yan Gu, Xiao‐Lei Hao, Jiu‐Qing Liang

2022Annalen der Physik10 citationsDOIOpen Access PDF

Abstract

Abstract This paper demonstrates that the parity‐time ()‐symmetric non‐Hermitian Hamiltonian for a periodically driven system can be generated from a kernel Hamiltonian by a generalized gauge transformation. The kernel Hamiltonian is Hermitian and static, while the time‐dependent transformation operator has to be symmetric and non‐unitary in general. Biorthogonal sets of eigenstates appear necessarily as a consequence of the non‐Hermitian Hamiltonian. The wave functions and associated non‐adiabatic Berry phase for the n th eigenstate are obtained analytically. The classical version of the non‐Hermitian Hamiltonian becomes a complex function of canonical variables and time. The corresponding kernel Hamiltonian is derived with symmetric canonical‐variable transfer in the classical gauge transformation. Moreover, with the change of position‐momentum to angle‐action variables it is revealed that the non‐adiabatic Hannay's angle and Berry phase satisfy precisely the quantum‐classical correspondence, .

Topics & Concepts

Hamiltonian (control theory)Hermitian matrixMathematical physicsCanonical transformationPhysicsUnitary transformationEigenvalues and eigenvectorsQuantum mechanicsAdiabatic quantum computationSelf-adjoint operatorGeometric phaseQuantumMathematicsHilbert spaceMathematical optimizationQuantum computerQuantum Mechanics and Non-Hermitian PhysicsQuantum chaos and dynamical systemsNonlinear Photonic Systems
Generalized Gauge Transformation with PT$PT$‐Symmetric Non‐Unitary Operator and Classical Correspondence of Non‐Hermitian Hamiltonian for a Periodically Driven System | Litcius