Bent and linear geometries of Renner-Teller pair states in CO2 probed by triple-ion-coincidence momentum imaging

Y. Muramatsu; K. Ueda; H. Chiba; N. Saito; M. Lavollée; A. Czasch; T. Weber; O. Jagutzki; H. Schmidt-Böcking; R. Moshammer; K. Kubozuka; I. Koyano

doi:10.1142/S0218625X02002002

Bent and linear geometries of Renner-Teller pair states in CO₂ probed by triple-ion-coincidence momentum imaging

Y. Muramatsu, K. Ueda, H. Chiba, N. Saito, M. Lavollée, A. Czasch, T. Weber, O. Jagutzki, H. Schmidt-Böcking, R. Moshammer, K. Kubozuka, I. Koyano

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6 Citations (Scopus)

Abstract

The C 1s^-12π_uΠ_u state of a linear molecule CO₂ splits into two states. The lower state becomes bent and the upper state remains linear. As a direct probe of this Renner-Teller effect, the bent and linear geometries of the Renner-Teller pair states have been probed by means of triple-ion-coincidence momentum imaging.

Original language	English
Pages (from-to)	93-97
Number of pages	5
Journal	Surface Review and Letters
Volume	9
Issue number	1
DOIs	https://doi.org/10.1142/S0218625X02002002
Publication status	Published - 2002 Feb

ASJC Scopus subject areas

Condensed Matter Physics
Surfaces and Interfaces
Surfaces, Coatings and Films
Materials Chemistry

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10.1142/S0218625X02002002

Cite this

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title = "Bent and linear geometries of Renner-Teller pair states in CO2 probed by triple-ion-coincidence momentum imaging",

abstract = "The C 1s-12πuΠu state of a linear molecule CO2 splits into two states. The lower state becomes bent and the upper state remains linear. As a direct probe of this Renner-Teller effect, the bent and linear geometries of the Renner-Teller pair states have been probed by means of triple-ion-coincidence momentum imaging.",

author = "Y. Muramatsu and K. Ueda and H. Chiba and N. Saito and M. Lavoll{\'e}e and A. Czasch and T. Weber and O. Jagutzki and H. Schmidt-B{\"o}cking and R. Moshammer and K. Kubozuka and I. Koyano",

note = "Funding Information: This experiment was carried out with the approval of the SPring-8 program advisory committee (Proposal No.2000A0201-NS-np) and supported in part by a Grant-in-Aid for Scienti c Research from the Japan Society of the Promotion of Science and by the Matsuo Foundation. The authors are grateful to the staff of SPring-8 for their help.",

year = "2002",

month = feb,

doi = "10.1142/S0218625X02002002",

language = "English",

volume = "9",

pages = "93--97",

journal = "Surface Review and Letters",

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publisher = "World Scientific Publishing Co. Pte Ltd",

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TY - JOUR

T1 - Bent and linear geometries of Renner-Teller pair states in CO2 probed by triple-ion-coincidence momentum imaging

AU - Muramatsu, Y.

AU - Ueda, K.

AU - Chiba, H.

AU - Saito, N.

AU - Lavollée, M.

AU - Czasch, A.

AU - Weber, T.

AU - Jagutzki, O.

AU - Schmidt-Böcking, H.

AU - Moshammer, R.

AU - Kubozuka, K.

AU - Koyano, I.

N1 - Funding Information: This experiment was carried out with the approval of the SPring-8 program advisory committee (Proposal No.2000A0201-NS-np) and supported in part by a Grant-in-Aid for Scienti c Research from the Japan Society of the Promotion of Science and by the Matsuo Foundation. The authors are grateful to the staff of SPring-8 for their help.

PY - 2002/2

Y1 - 2002/2

N2 - The C 1s-12πuΠu state of a linear molecule CO2 splits into two states. The lower state becomes bent and the upper state remains linear. As a direct probe of this Renner-Teller effect, the bent and linear geometries of the Renner-Teller pair states have been probed by means of triple-ion-coincidence momentum imaging.

AB - The C 1s-12πuΠu state of a linear molecule CO2 splits into two states. The lower state becomes bent and the upper state remains linear. As a direct probe of this Renner-Teller effect, the bent and linear geometries of the Renner-Teller pair states have been probed by means of triple-ion-coincidence momentum imaging.

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DO - 10.1142/S0218625X02002002

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JO - Surface Review and Letters

JF - Surface Review and Letters

IS - 1

ER -

Bent and linear geometries of Renner-Teller pair states in CO₂ probed by triple-ion-coincidence momentum imaging

Abstract

ASJC Scopus subject areas

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