Tomoya Tagami scite author profile

Tomoya Tagami

3Publications

14Citation Statements Received

91Citation Statements Given

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Affiliations

Kyoto Institute of Technology

Publications

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Drastic transitions of excited state and coupling regime in all-inorganic perovskite microcavities characterized by exciton/plasmon hybrid natures

et al. 2022

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Lead-halide perovskites are highly promising for various optoelectronic applications, including laser devices. However, fundamental photophysics explaining the coherent-light emission from this material system is so intricate and often the subject of debate. Here, we systematically investigate photoluminescence properties of all-inorganic perovskite microcavity at room temperature and discuss the excited state and the light–matter coupling regime depending on excitation density. Angle-resolved photoluminescence clearly exhibits that the microcavity system shows a transition from weak coupling regime to strong coupling regime, revealing the increase in correlated electron–hole pairs. With pumping fluence above the threshold, the photoluminescence signal shows a lasing behavior with bosonic condensation characteristics, accompanied by long-range phase coherence. The excitation density required for the lasing behavior, however, is found to exceed the Mott density, excluding the exciton as the excited state. These results demonstrate that the polaritonic Bardeen–Cooper–Schrieffer state originates the strong coupling formation and the lasing behavior.

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Anisotropic light-matter coupling and below-threshold excitation dynamics in an organic crystal microcavity

et al. 2021

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Organic semiconductors are promising candidates as platforms for room temperature polaritonic devices. An issue for practical implementation of organic polariton devices is the lowering of condensation threshold. Here we investigate anisotropic light-matter coupling characteristics in an organic crystal microcavity showing strong molecular orientation. Furthermore, the below-threshold excitation dynamics are investigated to clarify the spontaneous transition pathways from reservoir to polariton states. Time-resolved photoluminescence measurements reveal that photonic/excitonic hybrid transition processes coexist in the microcavity system. This finding provides valuable insights into a detailed understanding of polariton dynamics and help in the design of polaritonic devices showing a low-threshold condensed phase.

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Polarization Characteristics of Polaritonic BCS in CsPbBr3 Microcavity

Moriyama

Ueda

Hirao

et al. 2022

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Room temperature polariton state in microcavity of lead-halide perovskite gathers much attention to study their fundamental quantum physics. In this study, we investigate the polarization characteristics of polaritonic Bardeen-Cooper-Schrieffer (BCS) state in CsPbBr3 microcavities. The polariton mode shows a large birefringence due to the crystallographic anisotropy. At a high excitation density, we observed condensation switching phenomenon between the two polarized polariton modes.

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Tomoya Tagami

Drastic transitions of excited state and coupling regime in all-inorganic perovskite microcavities characterized by exciton/plasmon hybrid natures

Anisotropic light-matter coupling and below-threshold excitation dynamics in an organic crystal microcavity

Polarization Characteristics of Polaritonic BCS in CsPbBr3 Microcavity

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