Investigation of dissociative photoionization pathways for orientation-selected molecules by phase-controlled laser fields

Kenichi Okutsu; Naoaki Saito; Hideki Ohmura

doi:10.1063/5.0029997

Investigation of dissociative photoionization pathways for orientation-selected molecules by phase-controlled laser fields

Kenichi Okutsu, Naoaki Saito, Hideki Ohmura

SCI - Chemistry

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

2 Citations (Scopus)

Abstract

Intense (5.0 × 1012 W/cm2) nanosecond phase-controlled laser fields consisting of fundamental and second-harmonic light induce orientation-selective molecular tunneling ionization in a randomly orientated molecular ensemble in a gas phase. The selection of oriented molecules enables one to elucidate dissociative photoionization pathways while eliminating loss of information due to orientational averaging. Here, we have investigated the dissociative ionization of hydrofluorocarbon molecules induced by phase-controlled two-color laser fields. From the phase-dependent behavior of photofragment emission from orientation-selected molecules, dissociation pathways were elucidated experimentally. Bond dissociation energies obtained by quantum chemical calculations support the identified dissociation pathways.

Original language	English
Article number	015246
Journal	AIP Advances
Volume	11
Issue number	1
DOIs	https://doi.org/10.1063/5.0029997
Publication status	Published - 2021 Jan 1

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1063/5.0029997

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abstract = "Intense (5.0 × 1012 W/cm2) nanosecond phase-controlled laser fields consisting of fundamental and second-harmonic light induce orientation-selective molecular tunneling ionization in a randomly orientated molecular ensemble in a gas phase. The selection of oriented molecules enables one to elucidate dissociative photoionization pathways while eliminating loss of information due to orientational averaging. Here, we have investigated the dissociative ionization of hydrofluorocarbon molecules induced by phase-controlled two-color laser fields. From the phase-dependent behavior of photofragment emission from orientation-selected molecules, dissociation pathways were elucidated experimentally. Bond dissociation energies obtained by quantum chemical calculations support the identified dissociation pathways.",

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AU - Okutsu, Kenichi

AU - Saito, Naoaki

AU - Ohmura, Hideki

N1 - Funding Information: This work was partially supported by the Japan Society for the Promotion of Science (KAKENHI) under Grant Nos. 24340097 and 16H04103. K.O. acknowledges the AIST Innovation School. Publisher Copyright: © 2021 Author(s).

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N2 - Intense (5.0 × 1012 W/cm2) nanosecond phase-controlled laser fields consisting of fundamental and second-harmonic light induce orientation-selective molecular tunneling ionization in a randomly orientated molecular ensemble in a gas phase. The selection of oriented molecules enables one to elucidate dissociative photoionization pathways while eliminating loss of information due to orientational averaging. Here, we have investigated the dissociative ionization of hydrofluorocarbon molecules induced by phase-controlled two-color laser fields. From the phase-dependent behavior of photofragment emission from orientation-selected molecules, dissociation pathways were elucidated experimentally. Bond dissociation energies obtained by quantum chemical calculations support the identified dissociation pathways.

AB - Intense (5.0 × 1012 W/cm2) nanosecond phase-controlled laser fields consisting of fundamental and second-harmonic light induce orientation-selective molecular tunneling ionization in a randomly orientated molecular ensemble in a gas phase. The selection of oriented molecules enables one to elucidate dissociative photoionization pathways while eliminating loss of information due to orientational averaging. Here, we have investigated the dissociative ionization of hydrofluorocarbon molecules induced by phase-controlled two-color laser fields. From the phase-dependent behavior of photofragment emission from orientation-selected molecules, dissociation pathways were elucidated experimentally. Bond dissociation energies obtained by quantum chemical calculations support the identified dissociation pathways.

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Investigation of dissociative photoionization pathways for orientation-selected molecules by phase-controlled laser fields

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