Eigenstate thermalization hypothesis, time operator, and extremely quick relaxation of fidelity

Abstract

The eigenstate thermalization hypothesis (ETH) states that for nonintegrable systems, each energy eigenstate accurately gives microcanonical expectation values for a class of observables. In this paper, we explore the ETH in terms of the time-energy uncertainty and an intrinsic thermal nature shared by the majority of quasi eigenstates of operationally defined ‘time operator’: First, we show that the energy eigenstates are superposition of uncountably many quasi eigenstates of suitably defined ‘time operator’. Majority of such quasi eigenstates are thermal for thermodynamic isolated quantum many-body systems and approximately orthogonal in terms of extremely short relaxation time of the fidelity. In this manner, our scenario provides a theoretical explanation of ETH.