Hamiltonian of mean force in the weak-coupling and high-temperature approximations and refined quantum master equations
G. M. Timofeev, А. С. Трушечкин
Abstract
The Hamiltonian of mean force is a widely used concept to describe the modification of the usual canonical Gibbs state for a quantum system whose coupling strength with the thermal bath is non-negligible. Here, we perturbatively derive general approximate expressions for the Hamiltonians of mean force in the weak-coupling approximation and in the high-temperature one. We numerically analyze the accuracy of the corresponding expressions and show that the precision of the Bloch–Redfield equantum master equation can be improved if we replace the original system Hamiltonian by the Hamiltonian of mean force.
Topics & Concepts
Hamiltonian (control theory)PhysicsMaster equationQuantumGibbs stateCoupling strengthStatistical physicsQuantum mechanicsClassical mechanicsMathematicsCondensed matter physicsMathematical optimizationSpectroscopy and Quantum Chemical StudiesAdvanced Thermodynamics and Statistical MechanicsQuantum Information and Cryptography