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Main Authors: Buzin, Daniil S., Pankin, Pavel S., Maksimov, Dmitrii N., Sutormin, Vitaly S., Romanenko, Gavriil A., Bikbaev, Rashid G., Nedelin, Sergey V., Zolotovskii, Nikita A., Tambasov, Igor A., Vetrov, Stepan Ya., Chen, Kuo-Ping, Timofeev, Ivan V.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.03282
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author Buzin, Daniil S.
Pankin, Pavel S.
Maksimov, Dmitrii N.
Sutormin, Vitaly S.
Romanenko, Gavriil A.
Bikbaev, Rashid G.
Nedelin, Sergey V.
Zolotovskii, Nikita A.
Tambasov, Igor A.
Vetrov, Stepan Ya.
Chen, Kuo-Ping
Timofeev, Ivan V.
author_facet Buzin, Daniil S.
Pankin, Pavel S.
Maksimov, Dmitrii N.
Sutormin, Vitaly S.
Romanenko, Gavriil A.
Bikbaev, Rashid G.
Nedelin, Sergey V.
Zolotovskii, Nikita A.
Tambasov, Igor A.
Vetrov, Stepan Ya.
Chen, Kuo-Ping
Timofeev, Ivan V.
contents A comprehensive approach for simulating lasing dynamics in a liquid crystal based laser is presented. The approach takes into account the transformation of the liquid crystal structure caused by applied voltage. In particular, it allows us to explicitly account for a resonant mode frequency shift in the laser equations. The laser dynamic is described by a set of coupled non-linear differential equations for dye polarizations, population densities and the electromagnetic fields. The proposed model is applied to a photonic crystal$-$metal microcavity filled with a resonant nematic liquid crystal layer doped with a dye. The calculated lasing spectra governed by external electric field are verified in comparison with measured spectra.
format Preprint
id arxiv_https___arxiv_org_abs_2412_03282
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Electrically controlled laser generation in a photonic crystal - liquid crystal - metal microcavity
Buzin, Daniil S.
Pankin, Pavel S.
Maksimov, Dmitrii N.
Sutormin, Vitaly S.
Romanenko, Gavriil A.
Bikbaev, Rashid G.
Nedelin, Sergey V.
Zolotovskii, Nikita A.
Tambasov, Igor A.
Vetrov, Stepan Ya.
Chen, Kuo-Ping
Timofeev, Ivan V.
Optics
Quantum Physics
A comprehensive approach for simulating lasing dynamics in a liquid crystal based laser is presented. The approach takes into account the transformation of the liquid crystal structure caused by applied voltage. In particular, it allows us to explicitly account for a resonant mode frequency shift in the laser equations. The laser dynamic is described by a set of coupled non-linear differential equations for dye polarizations, population densities and the electromagnetic fields. The proposed model is applied to a photonic crystal$-$metal microcavity filled with a resonant nematic liquid crystal layer doped with a dye. The calculated lasing spectra governed by external electric field are verified in comparison with measured spectra.
title Electrically controlled laser generation in a photonic crystal - liquid crystal - metal microcavity
topic Optics
Quantum Physics
url https://arxiv.org/abs/2412.03282