Integrals of motion as slow modes in dissipative many-body operator dynamics

Tian Hua Yang; Dmitry A. Abanin

doi:10.1103/d9b4-wlv6

Integrals of motion as slow modes in dissipative many-body operator dynamics

Tian Hua Yang
, Dmitry A. Abanin

Research output: Contribution to journal › Article › peer-review

Abstract

We consider Lindbladian operator dynamics in many-body quantum systems with one or more integrals of motion (IOMs), subject to weak local dissipation. We demonstrate that IOMs with small support become slow modes of these dynamics, in the sense that their Frobenius norms decay more slowly compared to generic operators. As a result, the eigenoperators of such Lindbladians with slowest decay rates have a large overlap with the IOMs of the underlying Hamiltonian. We demonstrate this correspondence between slow modes and IOMs numerically for a number of many-body models and further corroborate it with perturbative arguments. These results open up another method for the identification of IOMs and provide insights into the dissipative many-body dynamics.

Original language	English (US)
Article number	094304
Journal	Physical Review B
Volume	112
Issue number	9
DOIs	https://doi.org/10.1103/d9b4-wlv6
State	Published - Sep 8 2025

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/d9b4-wlv6

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abstract = "We consider Lindbladian operator dynamics in many-body quantum systems with one or more integrals of motion (IOMs), subject to weak local dissipation. We demonstrate that IOMs with small support become slow modes of these dynamics, in the sense that their Frobenius norms decay more slowly compared to generic operators. As a result, the eigenoperators of such Lindbladians with slowest decay rates have a large overlap with the IOMs of the underlying Hamiltonian. We demonstrate this correspondence between slow modes and IOMs numerically for a number of many-body models and further corroborate it with perturbative arguments. These results open up another method for the identification of IOMs and provide insights into the dissipative many-body dynamics.",

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AU - Abanin, Dmitry A.

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N2 - We consider Lindbladian operator dynamics in many-body quantum systems with one or more integrals of motion (IOMs), subject to weak local dissipation. We demonstrate that IOMs with small support become slow modes of these dynamics, in the sense that their Frobenius norms decay more slowly compared to generic operators. As a result, the eigenoperators of such Lindbladians with slowest decay rates have a large overlap with the IOMs of the underlying Hamiltonian. We demonstrate this correspondence between slow modes and IOMs numerically for a number of many-body models and further corroborate it with perturbative arguments. These results open up another method for the identification of IOMs and provide insights into the dissipative many-body dynamics.

AB - We consider Lindbladian operator dynamics in many-body quantum systems with one or more integrals of motion (IOMs), subject to weak local dissipation. We demonstrate that IOMs with small support become slow modes of these dynamics, in the sense that their Frobenius norms decay more slowly compared to generic operators. As a result, the eigenoperators of such Lindbladians with slowest decay rates have a large overlap with the IOMs of the underlying Hamiltonian. We demonstrate this correspondence between slow modes and IOMs numerically for a number of many-body models and further corroborate it with perturbative arguments. These results open up another method for the identification of IOMs and provide insights into the dissipative many-body dynamics.

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ER -

Integrals of motion as slow modes in dissipative many-body operator dynamics

Abstract

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