Long-distance heat transfer between molecular systems through a hybrid plasmonic-photonic nanoresonator
Entity
UAM. Departamento de Física Teórica de la Materia CondensadaPublisher
IOP PublishingDate
2020-12-24Citation
10.1088/2040-8986/abcfd6
Journal of Optics 23.1 (2021): 015003
ISSN
2040-8978 (print); 2040-8986 (online)DOI
10.1088/2040-8986/abcfd6Funded by
This work has been funded by the European Research Council through grant ERC-2016-StG-714870 and by the Spanish Ministry for Science, Innovation, and Universities—Agencia Estatal de Investigación through Grant Nos. RTI2018-099737-B-I00, PCI2018-093145 (through the QuantERA program of the European Commission), and MDM-2014-0377 (through the María de Maeztu program for Units of Excellence in R&D), as well as through a Ramón y Cajal grant (J F) and support from the Iranian Ministry of Science, Research and Technology (SMA)Project
info:eu-repo/grantAgreement/EC/H2020/714870/EU//MMUSCLES; Gobierno de España. RTI2018-099737-B-I00; Gobierno de España. PCI2018-093145Editor's Version
https://doi.org/10.1088/2040-8986/abcfd6Subjects
Heat transfer; Hybrid plasmonic-photonic; Molecular optomechanics; Optomechanics; FísicaRights
© 2020 The Author(s). Published by IOP Publishing Ltd.Abstract
We theoretically study a hybrid plasmonic-photonic cavity setup that can be used to induce and control long-distance heat transfer between molecular systems through optomechanical interactions. The structure we propose consists of two separated plasmonic nanoantennas coupled to a dielectric cavity. The hybrid modes of this resonator can combine the large optomechanical coupling of the sub-wavelength plasmonic modes with the large quality factor and delocalized character of the cavity mode that extends over a large distance (∼µm). We show that this can lead to effective long-range heat transport between molecular vibrations that can be actively controlled through an external driving laser
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Google Scholar:Ashrafi, S. Mahmoud
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Malekfar, R.
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Bahrampour, A. R.
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Feist, Johannes
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