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Toward quantum simulation of non-Markovian open quantum dynamics: A universal and compact theory

Xiang Li, Su-Xiang Lyu, Yao Wang, Rui‐Xue Xu, Xiao Zheng, YiJing Yan

2024Physical review. A/Physical review, A26 citationsDOI

Abstract

Non-Markovianity, the intricate dependence of an open quantum system on its temporal evolution history, holds tremendous implications across various scientific disciplines. However, accurately characterizing the complex non-Markovian effects has posed a formidable challenge for numerical simulations. While quantum computing technologies show promise, a universal theory enabling practical quantum algorithm implementation has been elusive. We address this gap by introducing the dissipaton-embedded quantum master equation in second quantization (DQME-SQ). This exact and compact theory offers two key advantages: representability by quantum circuits and universal applicability to any Gaussian environment. We demonstrate these capabilities through digital quantum simulations of non-Markovian dissipative dynamics in both bosonic and fermionic environments. The DQME-SQ framework opens a new horizon for the efficient exploration of complex open quantum systems by leveraging the rapidly advancing quantum computing technologies.

Topics & Concepts

Markov processStatistical physicsQuantumOpen quantum systemQuantum dynamicsDynamics (music)PhysicsComputer scienceQuantum mechanicsMathematicsStatisticsAcousticsSpectroscopy and Quantum Chemical StudiesQuantum Information and CryptographyQuantum Computing Algorithms and Architecture
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