Ultrafast photo-induced absorption change in inorganic-organic multiple quantum well compound

Masakazu Kajita; Makoto Shimizu; Arup Neogi; Teruya Ishihara

doi:10.1142/s021797920100855x

Ultrafast photo-induced absorption change in inorganic-organic multiple quantum well compound

Masakazu Kajita, Makoto Shimizu, Arup Neogi, Teruya Ishihara

Research output: Contribution to journal › Article › peer-review

Abstract

We have performed pump-and-probe measurements to investigate ultrafast excitonic non-linearity expected in an inorganic-organic compound (C₆H₅C₂H₄NH₃)₂PbI₄, which has huge exciton binding energy (220 meV) and oscillator strength (0.5 per formula unit) by virture of the small dielectric constant in the barrier layer (the dielectric confinement or image charge effect). When the pump photon energy is set at the exciton level at 2.37 eV or above the band gap, the absorption decreases immediately after the pump due to the phase space filling effect and retrieves in a few ps. The retrieval time is ascribed to the ultrafast radiative lifetime of the exciton level. The second exciton absorption at 2.39 eV exhibits induced absorption when the pump is at the first exciton band, which may provide a hint to the origin of the band.

Original language	English
Pages (from-to)	3741-3744
Number of pages	4
Journal	International Journal of Modern Physics B
Volume	15
Issue number	28-30
DOIs	https://doi.org/10.1142/s021797920100855x
Publication status	Published - 2001 Dec 10
Externally published	Yes

ASJC Scopus subject areas

Statistical and Nonlinear Physics
Condensed Matter Physics

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title = "Ultrafast photo-induced absorption change in inorganic-organic multiple quantum well compound",

abstract = "We have performed pump-and-probe measurements to investigate ultrafast excitonic non-linearity expected in an inorganic-organic compound (C6H5C 2H4NH3)2PbI4, which has huge exciton binding energy (220 meV) and oscillator strength (0.5 per formula unit) by virture of the small dielectric constant in the barrier layer (the dielectric confinement or image charge effect). When the pump photon energy is set at the exciton level at 2.37 eV or above the band gap, the absorption decreases immediately after the pump due to the phase space filling effect and retrieves in a few ps. The retrieval time is ascribed to the ultrafast radiative lifetime of the exciton level. The second exciton absorption at 2.39 eV exhibits induced absorption when the pump is at the first exciton band, which may provide a hint to the origin of the band.",

author = "Masakazu Kajita and Makoto Shimizu and Arup Neogi and Teruya Ishihara",

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AU - Kajita, Masakazu

AU - Shimizu, Makoto

AU - Neogi, Arup

AU - Ishihara, Teruya

PY - 2001/12/10

Y1 - 2001/12/10

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AB - We have performed pump-and-probe measurements to investigate ultrafast excitonic non-linearity expected in an inorganic-organic compound (C6H5C 2H4NH3)2PbI4, which has huge exciton binding energy (220 meV) and oscillator strength (0.5 per formula unit) by virture of the small dielectric constant in the barrier layer (the dielectric confinement or image charge effect). When the pump photon energy is set at the exciton level at 2.37 eV or above the band gap, the absorption decreases immediately after the pump due to the phase space filling effect and retrieves in a few ps. The retrieval time is ascribed to the ultrafast radiative lifetime of the exciton level. The second exciton absorption at 2.39 eV exhibits induced absorption when the pump is at the first exciton band, which may provide a hint to the origin of the band.

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Ultrafast photo-induced absorption change in inorganic-organic multiple quantum well compound

Abstract

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