Non-normal Hamiltonian dynamics in quantum systems and its realization on quantum computers

TL;DR

This paper explores the effects of non-normal Hamiltonians in quantum systems, focusing on their pseudospectrum and transient dynamics, and demonstrates their realization and observation on quantum computers, revealing phenomena like frozen norm dynamics.

Contribution

It introduces a framework to study non-normal Hamiltonian dynamics via pseudospectrum analysis and demonstrates experimental realization on quantum computers using novel techniques.

Findings

Transient suppression of decay rate due to pseudospectrum

Observation of frozen norm dynamics as a quantum Zeno effect

Experimental validation on IBM Quantum cloud platform

Abstract

The eigenspectrum of a non-normal matrix, which does not commute with its Hermitian conjugate, is a central issue of non-Hermitian physics that has been extensively studied in the past few years. There is, however, another characteristic of a non-normal matrix that has often been overlooked: the pseudospectrum, or the set of spectra under small perturbations. In this paper, we study the dynamics driven by the non-normal matrix (Hamiltonian) realized as a continuous quantum trajectory of the Lindblad master equation in open quantum systems and point out that the dynamics can reveal the nature of unconventional pseudospectrum of the non-normal Hamiltonian. In particular, we focus on the transient dynamics of the norm of an unnormalized quantum state evolved with the non-normal Hamiltonian, which is related to the probability for observing the trajectory with no quantum jump. We formulate the transient suppression of the decay rate of the norm due to the pseudospectral behavior and derive a non-Hermitian/non-normal analog of the time-energy uncertainty relation. We also consider two methods to experimentally realize the non-normal dynamics and observe our theoretical findings on quantum computers: one uses a technique to realize non-unitary operations on quantum circuits and the other leverages a quantum-classical hybrid algorithm called variational quantum simulation. Our demonstrations using cloud-based quantum computers provided by IBM Quantum exhibit the frozen dynamics of the norm in transient time, which can be regarded as a non-normal analog of the quantum Zeno effect.