Excited-state dynamics of CS2 studied by photoelectron imaging with a time resolution of 22 fs

Takao Fuji; Yoshi Ichi Suzuki; Takuya Horio; Toshinori Suzuki

doi:10.1002/asia.201100458

Excited-state dynamics of CS₂ studied by photoelectron imaging with a time resolution of 22 fs

Takao Fuji, Yoshi Ichi Suzuki, Takuya Horio, Toshinori Suzuki

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

18 Citations (Scopus)

Abstract

The ultrafast dynamics of CS₂ in the ¹B ₂(¹Iσ_u⁺) state was studied by photoelectron imaging with a time resolution of 22 fs. The photoelectron signal intensity exhibited clear vibrational quantum beats due to wave packet motion. The signal intensity decayed with a lifetime of about 400 fs. This decay was preceded by a lag of around 30 fs, which was considered to correspond to the time for a vibrational wave packet to propagate from the Franck-Condon region to the region where predissociation occurred. The photoelectron angular distribution remained constant when the pump-probe delay time was varied. Consequently, variation of the electronic character caused by the vibrational wave packet motion was not identified within the accuracy of our measurements.

Original language	English
Pages (from-to)	3028-3034
Number of pages	7
Journal	Chemistry - An Asian Journal
Volume	6
Issue number	11
DOIs	https://doi.org/10.1002/asia.201100458
Publication status	Published - Nov 4 2011
Externally published	Yes

All Science Journal Classification (ASJC) codes

Biochemistry
Organic Chemistry

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title = "Excited-state dynamics of CS2 studied by photoelectron imaging with a time resolution of 22 fs",

abstract = "The ultrafast dynamics of CS2 in the 1B 2(1Iσu+) state was studied by photoelectron imaging with a time resolution of 22 fs. The photoelectron signal intensity exhibited clear vibrational quantum beats due to wave packet motion. The signal intensity decayed with a lifetime of about 400 fs. This decay was preceded by a lag of around 30 fs, which was considered to correspond to the time for a vibrational wave packet to propagate from the Franck-Condon region to the region where predissociation occurred. The photoelectron angular distribution remained constant when the pump-probe delay time was varied. Consequently, variation of the electronic character caused by the vibrational wave packet motion was not identified within the accuracy of our measurements.",

author = "Takao Fuji and Suzuki, {Yoshi Ichi} and Takuya Horio and Toshinori Suzuki",

year = "2011",

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doi = "10.1002/asia.201100458",

language = "English",

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T1 - Excited-state dynamics of CS2 studied by photoelectron imaging with a time resolution of 22 fs

AU - Fuji, Takao

AU - Suzuki, Yoshi Ichi

AU - Horio, Takuya

AU - Suzuki, Toshinori

PY - 2011/11/4

Y1 - 2011/11/4

N2 - The ultrafast dynamics of CS2 in the 1B 2(1Iσu+) state was studied by photoelectron imaging with a time resolution of 22 fs. The photoelectron signal intensity exhibited clear vibrational quantum beats due to wave packet motion. The signal intensity decayed with a lifetime of about 400 fs. This decay was preceded by a lag of around 30 fs, which was considered to correspond to the time for a vibrational wave packet to propagate from the Franck-Condon region to the region where predissociation occurred. The photoelectron angular distribution remained constant when the pump-probe delay time was varied. Consequently, variation of the electronic character caused by the vibrational wave packet motion was not identified within the accuracy of our measurements.

AB - The ultrafast dynamics of CS2 in the 1B 2(1Iσu+) state was studied by photoelectron imaging with a time resolution of 22 fs. The photoelectron signal intensity exhibited clear vibrational quantum beats due to wave packet motion. The signal intensity decayed with a lifetime of about 400 fs. This decay was preceded by a lag of around 30 fs, which was considered to correspond to the time for a vibrational wave packet to propagate from the Franck-Condon region to the region where predissociation occurred. The photoelectron angular distribution remained constant when the pump-probe delay time was varied. Consequently, variation of the electronic character caused by the vibrational wave packet motion was not identified within the accuracy of our measurements.

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Excited-state dynamics of CS₂ studied by photoelectron imaging with a time resolution of 22 fs

Abstract

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