Exceptional points treatment of cavity spectroscopies

Mukamel, Shaul; Li, Anqi; Galperin, Michael

doi:10.1063/5.0142022

The Journal of Chemical Physics

2023

DOI: 10.1063/5.0142022

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Exceptional points treatment of cavity spectroscopies

Shaul Mukamel

Anqi Li

Michael Galperin

Abstract: The infrared response of a system of two vibrational modes in a cavity is calculated by an effective non-Hermitian Hamiltonian derived by employing the nonequilibrium Green's functions (NEGF) formalism. Degeneracies of the Hamiltonian (exceptional points, EP) widely employed in theoretical analysis of optical cavity spectroscopies are used in an approximate treatment and compared with the full NEGF. Qualitative limitations of the EP treatment are explained by examining the approximations employed in the calcul… Show more

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2024

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Cited by 2 publications

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Liouvillian exceptional points of an open driven two-level system

Seshadri,

Li,

Galperin

2024

The Journal of Chemical Physics

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We study the applicability of the Liouvillian exceptional points (LEPs) approach to nanoscale open quantum systems. A generic model of the driven two-level system in a thermal environment is analyzed within the nonequilibrium Green’s function (NEGF) and Bloch quantum master equation formulations. We derive the latter starting from the exact NEGF Dyson equations and highlight the qualitative limitations of the LEP treatment by examining the approximations employed in its derivation. We find that the non-Markov character of evolution in open quantum systems does not allow for the introduction of the concept of exceptional points for a description of their dynamics. Theoretical analysis is illustrated with numerical simulations.

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Liouvillian exceptional points of an open driven two-level system

Seshadri,

Li,

Galperin

2024

The Journal of Chemical Physics

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Control of the Purcell effect via unexcited atoms and exceptional points

Agarwal

2024

Phys. Rev. Research

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We examine the possible control of the celebrated Purcell effect in cavity quantum electrodynamics. We demonstrate that the presence of an unexcited atom can significantly alter the Purcell decay depending on the strength of coupling of the unexcited atom with the cavity mode though the excited atom has to be weakly coupled for it to be in the Purcell regime. This cooperative behavior is distinct from the nonradiative nature of the singlet state which is an entangled state of the two-atom system. We present a physical interpretation for inhibition as due to interference between two polariton channels of decay. For specific values of the parameters, we bring out a connection to exceptional points in the cavity QED system as the unexcited atom and cavity mode can produce a second-order exceptional point. We further show how two unexcited atoms can create a third-order exceptional point leading to inhibition of the Purcell effect. We also discuss the case when the Purcell effect can be enhanced. Published by the American Physical Society 2024

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Exceptional points treatment of cavity spectroscopies

Cited by 2 publications

References 59 publications

Liouvillian exceptional points of an open driven two-level system

Liouvillian exceptional points of an open driven two-level system

Control of the Purcell effect via unexcited atoms and exceptional points

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