Superexcited states of OCS probed by using photoelectron spectroscopy for autoionizing atomic sulfur

Yasumasa Hikosaka; Hideo Hattori; Takumi Hikida; Koichiro Mitsuke

doi:10.1063/1.474652

Superexcited states of OCS probed by using photoelectron spectroscopy for autoionizing atomic sulfur

Yasumasa Hikosaka, Hideo Hattori, Takumi Hikida, Koichiro Mitsuke^*

^*Corresponding author for this work

Faculty of Liberal Arts and Sciences

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

14 Scopus citations

Abstract

Neutral dissociation of superexcited states of OCS has been studied by two-dimensional photoelectron spectroscopy using synchrotron radiation in the photon energy range of 14.2-16.8 eV. A two-dimensional spectrum exhibits noticeable features which are assigned as resulting from autoionizing transitions of excited atomic sulfur, S*, from Rydberg states converging to S⁺(²D⁰) to S⁺(⁴S⁰). The precursor molecular states leading to S*+CO are considered to be multiple-electron-excited Rydberg states, OCS*(Dis), converging to OCS⁺ with ²Σ^- and/or ²Δ symmetry. The electron signal counts due to autoionization of S* show enhancement at excitation photon energies for the Rydberg states, OCS*(R_B), converging to OCS⁺(B̃ ²Σ⁺). These results support a predissociation mechanism for the formation of S*: conversion from OCS*(R_B) to OCS*(Dis). The quantum yield for the predissociation is evaluated to be ∼1% at the photon energy corresponding to the 5sσ state of OCS*(R_B).

Original language	English
Pages (from-to)	2950-2961
Number of pages	12
Journal	Journal of Chemical Physics
Volume	107
Issue number	8
DOIs	https://doi.org/10.1063/1.474652
State	Published - 1997/08/22

ASJC Scopus subject areas

General Physics and Astronomy
Physical and Theoretical Chemistry

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title = "Superexcited states of OCS probed by using photoelectron spectroscopy for autoionizing atomic sulfur",

abstract = "Neutral dissociation of superexcited states of OCS has been studied by two-dimensional photoelectron spectroscopy using synchrotron radiation in the photon energy range of 14.2-16.8 eV. A two-dimensional spectrum exhibits noticeable features which are assigned as resulting from autoionizing transitions of excited atomic sulfur, S*, from Rydberg states converging to S+(2D0) to S+(4S0). The precursor molecular states leading to S*+CO are considered to be multiple-electron-excited Rydberg states, OCS*(Dis), converging to OCS+ with 2Σ- and/or 2Δ symmetry. The electron signal counts due to autoionization of S* show enhancement at excitation photon energies for the Rydberg states, OCS*(RB), converging to OCS+({\~B} 2Σ+). These results support a predissociation mechanism for the formation of S*: conversion from OCS*(RB) to OCS*(Dis). The quantum yield for the predissociation is evaluated to be ∼1% at the photon energy corresponding to the 5sσ state of OCS*(RB).",

author = "Yasumasa Hikosaka and Hideo Hattori and Takumi Hikida and Koichiro Mitsuke",

year = "1997",

month = aug,

day = "22",

doi = "10.1063/1.474652",

language = "英語",

volume = "107",

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journal = "Journal of Chemical Physics",

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publisher = "American Institute of Physics",

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T1 - Superexcited states of OCS probed by using photoelectron spectroscopy for autoionizing atomic sulfur

AU - Hikosaka, Yasumasa

AU - Hattori, Hideo

AU - Hikida, Takumi

AU - Mitsuke, Koichiro

PY - 1997/8/22

Y1 - 1997/8/22

N2 - Neutral dissociation of superexcited states of OCS has been studied by two-dimensional photoelectron spectroscopy using synchrotron radiation in the photon energy range of 14.2-16.8 eV. A two-dimensional spectrum exhibits noticeable features which are assigned as resulting from autoionizing transitions of excited atomic sulfur, S*, from Rydberg states converging to S+(2D0) to S+(4S0). The precursor molecular states leading to S*+CO are considered to be multiple-electron-excited Rydberg states, OCS*(Dis), converging to OCS+ with 2Σ- and/or 2Δ symmetry. The electron signal counts due to autoionization of S* show enhancement at excitation photon energies for the Rydberg states, OCS*(RB), converging to OCS+(B̃ 2Σ+). These results support a predissociation mechanism for the formation of S*: conversion from OCS*(RB) to OCS*(Dis). The quantum yield for the predissociation is evaluated to be ∼1% at the photon energy corresponding to the 5sσ state of OCS*(RB).

AB - Neutral dissociation of superexcited states of OCS has been studied by two-dimensional photoelectron spectroscopy using synchrotron radiation in the photon energy range of 14.2-16.8 eV. A two-dimensional spectrum exhibits noticeable features which are assigned as resulting from autoionizing transitions of excited atomic sulfur, S*, from Rydberg states converging to S+(2D0) to S+(4S0). The precursor molecular states leading to S*+CO are considered to be multiple-electron-excited Rydberg states, OCS*(Dis), converging to OCS+ with 2Σ- and/or 2Δ symmetry. The electron signal counts due to autoionization of S* show enhancement at excitation photon energies for the Rydberg states, OCS*(RB), converging to OCS+(B̃ 2Σ+). These results support a predissociation mechanism for the formation of S*: conversion from OCS*(RB) to OCS*(Dis). The quantum yield for the predissociation is evaluated to be ∼1% at the photon energy corresponding to the 5sσ state of OCS*(RB).

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DO - 10.1063/1.474652

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JO - Journal of Chemical Physics

JF - Journal of Chemical Physics

IS - 8

ER -

Superexcited states of OCS probed by using photoelectron spectroscopy for autoionizing atomic sulfur

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