Molecular ground-state dissociation in the condensed phase employing plasmonic field enhancement of chirped mid-infrared pulses

Molecular ground-state dissociation in the condensed phase employing plasmonic field enhancement of chirped mid-infrared pulses

There is a growing interest in controlling the chemical process at molecular level. Here the authors show the mid-IR chirped pulse driven ground-state dissociation of condensed phase tungsten hexacarbonyl using efficient vibrational ladder climbing process by employing plasmonic near-field enhanceme...

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Main Authors: Ikki Morichika, Kei Murata, Atsunori Sakurai, Kazuyuki Ishii, Satoshi Ashihara
Format: Article
Language:English
Published: Nature Publishing Group 2019-08-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-019-11902-6
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spelling doaj-3d28164d6b314262be658657f1fee96b2021-05-11T12:07:55ZengNature Publishing GroupNature Communications2041-17232019-08-011011810.1038/s41467-019-11902-6Molecular ground-state dissociation in the condensed phase employing plasmonic field enhancement of chirped mid-infrared pulsesIkki Morichika0Kei Murata1Atsunori Sakurai2Kazuyuki Ishii3Satoshi Ashihara4Institute of Industrial Science, The University of TokyoInstitute of Industrial Science, The University of TokyoInstitute of Industrial Science, The University of TokyoInstitute of Industrial Science, The University of TokyoInstitute of Industrial Science, The University of TokyoThere is a growing interest in controlling the chemical process at molecular level. Here the authors show the mid-IR chirped pulse driven ground-state dissociation of condensed phase tungsten hexacarbonyl using efficient vibrational ladder climbing process by employing plasmonic near-field enhancement.https://doi.org/10.1038/s41467-019-11902-6
collection DOAJ
language English
format Article
sources DOAJ
author Ikki Morichika
Kei Murata
Atsunori Sakurai
Kazuyuki Ishii
Satoshi Ashihara
spellingShingle Ikki Morichika
Kei Murata
Atsunori Sakurai
Kazuyuki Ishii
Satoshi Ashihara
Molecular ground-state dissociation in the condensed phase employing plasmonic field enhancement of chirped mid-infrared pulses
Nature Communications
author_facet Ikki Morichika
Kei Murata
Atsunori Sakurai
Kazuyuki Ishii
Satoshi Ashihara
author_sort Ikki Morichika
title Molecular ground-state dissociation in the condensed phase employing plasmonic field enhancement of chirped mid-infrared pulses
title_short Molecular ground-state dissociation in the condensed phase employing plasmonic field enhancement of chirped mid-infrared pulses
title_full Molecular ground-state dissociation in the condensed phase employing plasmonic field enhancement of chirped mid-infrared pulses
title_fullStr Molecular ground-state dissociation in the condensed phase employing plasmonic field enhancement of chirped mid-infrared pulses
title_full_unstemmed Molecular ground-state dissociation in the condensed phase employing plasmonic field enhancement of chirped mid-infrared pulses
title_sort molecular ground-state dissociation in the condensed phase employing plasmonic field enhancement of chirped mid-infrared pulses
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2019-08-01
description There is a growing interest in controlling the chemical process at molecular level. Here the authors show the mid-IR chirped pulse driven ground-state dissociation of condensed phase tungsten hexacarbonyl using efficient vibrational ladder climbing process by employing plasmonic near-field enhancement.
url https://doi.org/10.1038/s41467-019-11902-6
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AT keimurata moleculargroundstatedissociationinthecondensedphaseemployingplasmonicfieldenhancementofchirpedmidinfraredpulses
AT atsunorisakurai moleculargroundstatedissociationinthecondensedphaseemployingplasmonicfieldenhancementofchirpedmidinfraredpulses
AT kazuyukiishii moleculargroundstatedissociationinthecondensedphaseemployingplasmonicfieldenhancementofchirpedmidinfraredpulses
AT satoshiashihara moleculargroundstatedissociationinthecondensedphaseemployingplasmonicfieldenhancementofchirpedmidinfraredpulses
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