Quantum Dynamics with Stochastic Non-Hermitian Hamiltonians
Pablo Martinez-Azcona, Aritra Kundu, Avadh Saxena, Adolfo del Campo, Aurélia Chenu
Abstract
We study the quantum dynamics generated by a non-Hermitian Hamiltonian subject to stochastic perturbations in its anti-Hermitian part, describing fluctuating gains and losses. The dynamics averaged over the noise is described by an "antidephasing" master equation. We characterize the resulting state evolution and analyze its purity. The properties of such dynamics are illustrated in a stochastic dissipative qubit. Our analytical results show that adding noise allows for a rich control of the dynamics, stabilizing the lossy state and making state purification possible to a greater variety of steady states.
Topics & Concepts
Hermitian matrixStochastic dynamicsQuantum dynamicsQuantumPhysicsDynamics (music)Statistical physicsQuantum mechanicsAcousticsQuantum Mechanics and Non-Hermitian PhysicsQuantum Mechanics and ApplicationsQuantum chaos and dynamical systems