Sub-10-fs control of dissociation pathways in the hydrogen molecular ion with a few-pulse attosecond pulse train

Sub-10-fs control of dissociation pathways in the hydrogen molecular ion with a few-pulse attosecond pulse train

Attosecond laser pulses allow to explore the ultrafast atomic or molecular processes occurring in chemical reactions. Here the authors utilize a sequence of two XUV pump-probe pulses to control the dissociation dynamics of the hydrogen molecular ion.

Bibliographic Details
Main Authors: Yasuo Nabekawa, Yusuke Furukawa, Tomoya Okino, A Amani Eilanlou, Eiji J. Takahashi, Kaoru Yamanouchi, Katsumi Midorikawa
Format: Article
Language:English
Published: Nature Publishing Group 2016-09-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/ncomms12835
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spelling doaj-f7f46a7f3a9d458c8784be85e067f7c62021-05-11T11:22:14ZengNature Publishing GroupNature Communications2041-17232016-09-017111110.1038/ncomms12835Sub-10-fs control of dissociation pathways in the hydrogen molecular ion with a few-pulse attosecond pulse trainYasuo Nabekawa0Yusuke Furukawa1Tomoya Okino2A Amani Eilanlou3Eiji J. Takahashi4Kaoru Yamanouchi5Katsumi Midorikawa6Attosecond Science Research Team, Extreme Photonics Research Group, RIKEN Center for Advanced PhotonicsAttosecond Science Research Team, Extreme Photonics Research Group, RIKEN Center for Advanced PhotonicsAttosecond Science Research Team, Extreme Photonics Research Group, RIKEN Center for Advanced PhotonicsAttosecond Science Research Team, Extreme Photonics Research Group, RIKEN Center for Advanced PhotonicsAttosecond Science Research Team, Extreme Photonics Research Group, RIKEN Center for Advanced PhotonicsAttosecond Science Research Team, Extreme Photonics Research Group, RIKEN Center for Advanced PhotonicsAttosecond Science Research Team, Extreme Photonics Research Group, RIKEN Center for Advanced PhotonicsAttosecond laser pulses allow to explore the ultrafast atomic or molecular processes occurring in chemical reactions. Here the authors utilize a sequence of two XUV pump-probe pulses to control the dissociation dynamics of the hydrogen molecular ion.https://doi.org/10.1038/ncomms12835
collection DOAJ
language English
format Article
sources DOAJ
author Yasuo Nabekawa
Yusuke Furukawa
Tomoya Okino
A Amani Eilanlou
Eiji J. Takahashi
Kaoru Yamanouchi
Katsumi Midorikawa
spellingShingle Yasuo Nabekawa
Yusuke Furukawa
Tomoya Okino
A Amani Eilanlou
Eiji J. Takahashi
Kaoru Yamanouchi
Katsumi Midorikawa
Sub-10-fs control of dissociation pathways in the hydrogen molecular ion with a few-pulse attosecond pulse train
Nature Communications
author_facet Yasuo Nabekawa
Yusuke Furukawa
Tomoya Okino
A Amani Eilanlou
Eiji J. Takahashi
Kaoru Yamanouchi
Katsumi Midorikawa
author_sort Yasuo Nabekawa
title Sub-10-fs control of dissociation pathways in the hydrogen molecular ion with a few-pulse attosecond pulse train
title_short Sub-10-fs control of dissociation pathways in the hydrogen molecular ion with a few-pulse attosecond pulse train
title_full Sub-10-fs control of dissociation pathways in the hydrogen molecular ion with a few-pulse attosecond pulse train
title_fullStr Sub-10-fs control of dissociation pathways in the hydrogen molecular ion with a few-pulse attosecond pulse train
title_full_unstemmed Sub-10-fs control of dissociation pathways in the hydrogen molecular ion with a few-pulse attosecond pulse train
title_sort sub-10-fs control of dissociation pathways in the hydrogen molecular ion with a few-pulse attosecond pulse train
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2016-09-01
description Attosecond laser pulses allow to explore the ultrafast atomic or molecular processes occurring in chemical reactions. Here the authors utilize a sequence of two XUV pump-probe pulses to control the dissociation dynamics of the hydrogen molecular ion.
url https://doi.org/10.1038/ncomms12835
work_keys_str_mv AT yasuonabekawa sub10fscontrolofdissociationpathwaysinthehydrogenmolecularionwithafewpulseattosecondpulsetrain
AT yusukefurukawa sub10fscontrolofdissociationpathwaysinthehydrogenmolecularionwithafewpulseattosecondpulsetrain
AT tomoyaokino sub10fscontrolofdissociationpathwaysinthehydrogenmolecularionwithafewpulseattosecondpulsetrain
AT aamanieilanlou sub10fscontrolofdissociationpathwaysinthehydrogenmolecularionwithafewpulseattosecondpulsetrain
AT eijijtakahashi sub10fscontrolofdissociationpathwaysinthehydrogenmolecularionwithafewpulseattosecondpulsetrain
AT kaoruyamanouchi sub10fscontrolofdissociationpathwaysinthehydrogenmolecularionwithafewpulseattosecondpulsetrain
AT katsumimidorikawa sub10fscontrolofdissociationpathwaysinthehydrogenmolecularionwithafewpulseattosecondpulsetrain
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