Semi-classical molecular dynamics simulations of polariton transport in organic molecules strongly coupled to Bloch Surface Waves

Strong coupling has emerged as a mechanism to extend the diﬀusion length of excitons in organic semiconductors beyond their typical limits. This phenomenon manifests itself in the formation of hybrid light-matter states, known as polaritons, which arise when the interaction strength between light (e...

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Päätekijä:	Luo, Yunyi
Muut tekijät:	Matemaattis-luonnontieteellinen tiedekunta, Faculty of Sciences, Kemian laitos, Department of Chemistry, Jyväskylän yliopisto, University of Jyväskylä
Aineistotyyppi:	Pro gradu
Kieli:	eng
Julkaistu:	2024
Aiheet:	strong coupling Fysikaalinen kemia Physical Chemistry 4032 molekyylidynamiikka polaritonit simulointi kvanttikemia molecular dynamics polaritons simulation quantum chemistry
Linkit:	https://jyx.jyu.fi/handle/123456789/99390

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author	Luo, Yunyi
author2	Matemaattis-luonnontieteellinen tiedekunta Faculty of Sciences Kemian laitos Department of Chemistry Jyväskylän yliopisto University of Jyväskylä
author_facet	Luo, Yunyi Matemaattis-luonnontieteellinen tiedekunta Faculty of Sciences Kemian laitos Department of Chemistry Jyväskylän yliopisto University of Jyväskylä Luo, Yunyi Matemaattis-luonnontieteellinen tiedekunta Faculty of Sciences Kemian laitos Department of Chemistry Jyväskylän yliopisto University of Jyväskylä
author_sort	Luo, Yunyi
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description	Strong coupling has emerged as a mechanism to extend the diﬀusion length of excitons in organic semiconductors beyond their typical limits. This phenomenon manifests itself in the formation of hybrid light-matter states, known as polaritons, which arise when the interaction strength between light (e.g., cavity modes) and matter (e.g., molecular excitons) exceeds the decay rates in the system, such as cavity losses and molecular deactivation. Because of their partially photonic nature, polaritons exhibit fast and long-range propagation, resulting in enhanced transport of excitation. In this work, hybrid quantum mechanics/molecular mechanics simulations of polariton transport in a structure supporting Bloch Surface Waves were conducted to investigate the experimentally observed shift in the transport regime as the photonic contribution to polariton states changes. By comparing the results of molecular simulations with the results of simulations of static two-level systems, we analyze the origin of this shift and reveal the crucial role of molecular vibrations behind the shift. With the results, we demonstrate the critical role of selecting an appropriate model when simulating dynamics of polaritons. We expect that these insights provided in this thesis will be valuable for improving energy transfer in organic materials.
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This phenomenon manifests itself in the formation of hybrid light-matter states, known as polaritons, which arise when the interaction strength between light (e.g., cavity modes) and matter (e.g., molecular excitons) exceeds the decay rates in the system, such as cavity losses and molecular deactivation. Because of their partially photonic nature, polaritons exhibit fast and long-range propagation, resulting in enhanced transport of excitation.\n\nIn this work, hybrid quantum mechanics/molecular mechanics simulations of polariton transport in a structure supporting Bloch Surface Waves were conducted to investigate the experimentally observed shift in the transport regime as the photonic contribution to polariton states changes. By comparing the results of molecular simulations with the results of simulations of static two-level systems, we analyze the origin of this shift and reveal the crucial role of molecular vibrations behind the shift. 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spellingShingle	Luo, Yunyi Semi-classical molecular dynamics simulations of polariton transport in organic molecules strongly coupled to Bloch Surface Waves strong coupling Fysikaalinen kemia Physical Chemistry 4032 molekyylidynamiikka polaritonit simulointi kvanttikemia molecular dynamics polaritons simulation quantum chemistry
title	Semi-classical molecular dynamics simulations of polariton transport in organic molecules strongly coupled to Bloch Surface Waves
title_full	Semi-classical molecular dynamics simulations of polariton transport in organic molecules strongly coupled to Bloch Surface Waves
title_fullStr	Semi-classical molecular dynamics simulations of polariton transport in organic molecules strongly coupled to Bloch Surface Waves Semi-classical molecular dynamics simulations of polariton transport in organic molecules strongly coupled to Bloch Surface Waves
title_full_unstemmed	Semi-classical molecular dynamics simulations of polariton transport in organic molecules strongly coupled to Bloch Surface Waves Semi-classical molecular dynamics simulations of polariton transport in organic molecules strongly coupled to Bloch Surface Waves
title_short	Semi-classical molecular dynamics simulations of polariton transport in organic molecules strongly coupled to Bloch Surface Waves
title_sort	semi classical molecular dynamics simulations of polariton transport in organic molecules strongly coupled to bloch surface waves
title_txtP	Semi-classical molecular dynamics simulations of polariton transport in organic molecules strongly coupled to Bloch Surface Waves
topic	strong coupling Fysikaalinen kemia Physical Chemistry 4032 molekyylidynamiikka polaritonit simulointi kvanttikemia molecular dynamics polaritons simulation quantum chemistry
topic_facet	4032 Fysikaalinen kemia Physical Chemistry kvanttikemia molecular dynamics molekyylidynamiikka polaritonit polaritons quantum chemistry simulation simulointi strong coupling
url	https://jyx.jyu.fi/handle/123456789/99390 http://www.urn.fi/URN:NBN:fi:jyu-202501131161
work_keys_str_mv	AT luoyunyi semiclassicalmoleculardynamicssimulationsofpolaritontransportinorganicmoleculesstrongly

Semi-classical molecular dynamics simulations of polariton transport in organic molecules strongly coupled to Bloch Surface Waves

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