Related papers: Lossy anharmonic polaritons under periodic driving

Lossy anharmonic polaritons under periodic driving

URL: http://arxiv.org/abs/2402.18560v2
Date: Sat, 13 Apr 2024 04:09:42 GMT
Title: Lossy anharmonic polaritons under periodic driving
Authors: Maicol A. Ochoa,
Abstract summary: We study the anharmonic signatures in dissipative polaritons' stationary energy distribution and thermodynamics under external periodic driving. We find considerable differences in energy distribution and thermodynamics between harmonic, moderate, and strongly anharmonic polaritons.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We report on the anharmonic signatures in dissipative polaritons' stationary energy distribution and thermodynamics under external periodic driving. First, we introduce a dynamic model for the dissipative anharmonic Jaynes-Cummings polariton with a generic time-periodic interaction representing modulations of the polariton's energy due to an external force or field. We characterize the stationary state in terms of the exciton, phonon, and interaction energy dependence on the phonon anharmonicity, exciton-phonon coupling strength, and intensity and form of the external field-polariton coupling. Our model also captures the quantum thermodynamics of the driven polariton, which we analyze in connection with the irreversible heat, maximum power, and efficiency of the process. We find considerable differences in energy distribution and thermodynamics between harmonic, moderate, and strongly anharmonic polaritons. Moreover, comparing the external modulations to the phonon and exciton energy, we conclude that the former enhances the polariton's energy storage capacity and is occasionally limited by interference effects and energy saturation at the exciton.

Related papers

Non-Markovian effects in long-range polariton-mediated energy transfer [0.0]
We study the emission dynamics of a system consisting of two spatially separated layers of different species of molecules coupled to a common photon mode. Our results shed light on polaritonic long-range energy transfer, and provide further understanding of the role of vibrational modes of relevance to the growing field of molecular polaritonics.
arXiv Detail & Related papers (2024-11-01T10:38:27Z)
Understanding the Energy Gap Law under Vibrational Strong Coupling [0.0]
We show that under most conditions, the collective light-matter coupling strength is not large enough to counter the entropic penalty involved with using the polariton modes. This effect may be reversed with deep strong light-matter couplings or large detunings, both of which increase the upper polariton frequency.
arXiv Detail & Related papers (2022-10-10T19:50:08Z)
Probing dynamics of a two-dimensional dipolar spin ensemble using single qubit sensor [62.997667081978825]
We experimentally investigate individual spin dynamics in a two-dimensional ensemble of electron spins on the surface of a diamond crystal. We show that this anomalously slow relaxation rate is due to the presence of strong dynamical disorder. Our work paves the way towards microscopic study and control of quantum thermalization in strongly interacting disordered spin ensembles.
arXiv Detail & Related papers (2022-07-21T18:00:17Z)
Quantum thermodynamics of periodically driven polaritonic systems [0.0]
We investigate the energy distribution and quantum thermodynamics in periodically driven polaritonic systems at room temperature. We compute the thermodynamic performance during harmonic modulation and demonstrate that maximum efficiency occurs at resonance.
arXiv Detail & Related papers (2022-07-03T04:32:11Z)
Photoinduced prethermal order parameter dynamics in the two-dimensional large-$N$ Hubbard-Heisenberg model [77.34726150561087]
We study the microscopic dynamics of competing ordered phases in a two-dimensional correlated electron model. We simulate the light-induced transition between two competing phases.
arXiv Detail & Related papers (2022-05-13T13:13:31Z)
Generation of entanglement between quantum dot molecule with the presence of phonon effects in a voltage-controlled junction [0.0]
We investigate the generation of entanglement through a quantum dot molecule under the influence of vibrational phonon modes. The molecular quantum dot system is realized by coupled quantum dots inside a suspended carbon nanotube.
arXiv Detail & Related papers (2021-06-10T09:37:08Z)
Molecular Interactions Induced by a Static Electric Field in Quantum Mechanics and Quantum Electrodynamics [68.98428372162448]
We study the interaction between two neutral atoms or molecules subject to a uniform static electric field. Our focus is to understand the interplay between leading contributions to field-induced electrostatics/polarization and dispersion interactions.
arXiv Detail & Related papers (2021-03-30T14:45:30Z)
Non-Markovian perturbation theories for phonon effects in strong-coupling cavity quantum electrodynamics [0.0]
phonon interactions are inevitable in cavity quantum electrodynamical systems based on solid-state emitters or fluorescent molecules. It remains a significant theoretical challenge to describe such effects in a computationally efficient manner. We consider four non-Markovian perturbative master equation approaches to describe such dynamics.
arXiv Detail & Related papers (2021-03-26T08:32:19Z)
Effects of the dynamical magnetization state on spin transfer [68.8204255655161]
We show that the complex interactions between the spin-polarized electrons and the dynamical states of the local spins can be decomposed into separate processes. Our results suggest that exquisite control of spin transfer efficiency and of the resulting dynamical magnetization states may be achievable.
arXiv Detail & Related papers (2021-01-21T22:12:03Z)
Multimode-polariton superradiance via Floquet engineering [55.41644538483948]
We consider an ensemble of ultracold bosonic atoms within a near-planar cavity, driven by a far detuned laser. We show that a strong, dispersive atom-photon coupling can be reached for many transverse cavity modes at once. The resulting Floquet polaritons involve a superposition of a set of cavity modes with a density of excitation of the atomic cloud.
arXiv Detail & Related papers (2020-11-24T19:00:04Z)
Optically pumped spin polarization as a probe of many-body thermalization [50.591267188664666]
We study the spin diffusion dynamics of 13C in diamond, which we dynamically polarize at room temperature via optical spin pumping of engineered color centers. We find good thermal contact throughout the nuclear spin bath, virtually independent of the hyperfine coupling strength. Our results open intriguing opportunities to study the onset of thermalization in a system by controlling the internal interactions within the bath.
arXiv Detail & Related papers (2020-05-01T23:16:33Z)

This list is automatically generated from the titles and abstracts of the papers in this site.