Litcius/Paper detail

Classifying the non-time-local and entangling dynamics of an open qubit system

Sean Prudhoe, Sarah Shandera

2023Journal of High Energy Physics12 citationsDOIOpen Access PDF

Abstract

A bstract We study families of dynamical maps generated from interactions with varying degrees of symmetry. For a family of time-independent Hamiltonians, we demonstrate the relationship between symmetry, strong-coupling, perfect entanglers, non-Markovian features, and non-time-locality. We show that by perturbing the initial environment state, effective time-local descriptions can be obtained that are non-singular yet capture essential non-unitary features of the reduced dynamics. We then consider a time-dependent Hamiltonian that changes the degree of symmetry by activating a dormant degree of freedom. In this example we find that the one-qubit reduced dynamics changes dramatically. These results can inform the construction of effective theories of open systems when the larger system dynamics is unknown.

Topics & Concepts

PhysicsUnitary stateQubitHamiltonian (control theory)LocalityStatistical physicsSymmetry (geometry)Dynamics (music)Local symmetryTheoretical physicsDegree (music)Time evolutionClassical mechanicsQuantum mechanicsQuantumGeometryMathematicsPolitical scienceLinguisticsLawPhilosophyAcousticsMathematical optimizationQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum many-body systems