Response of the mechanical and chiral character of ethane to ultra-fast laser pulses

Xiao Peng Mi; Hui Lu; Tianlv Xu; Herbert  Früchtl; Tanja van Mourik; Martin J. Paterson; Steven R. Kirk; Samantha Jenkins

doi:10.1002/jcc.27225

Response of the mechanical and chiral character of ethane to ultra-fast laser pulses

Xiao Peng Mi, Hui Lu, Tianlv Xu, Herbert Früchtl, Tanja van Mourik, Martin J. Paterson, Steven R. Kirk^*, Samantha Jenkins^*

^*Corresponding author for this work

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

Abstract

A pair of simulated left and right circularly polarized ultra-fast laser pulses of duration 20 femtoseconds that induce a mixture of excited states are applied to ethane. The response of the electron dynamics is investigated within the next generation quantum theory of atoms in molecules (NG-QTAIM) using third-generation eigenvector-trajectories which are introduced in this work. This enables an analysis of the mechanical and chiral properties of the electron dynamics of ethane without needing to subject the C-C bond to external torsions as was the case for second-generation eigenvector-trajectories. The mechanical properties, in particular, the bond-flexing and bond-torsion were found to increase depending on the plane of the applied laser pulses. The bond-flexing and bond-torsion, depending on the plane of polarization, increases or decreases after the laser pulses are switched off. This is explainable in terms of directionally-dependent effects of the long-lasting superpositions of excited states. The chiral properties correspond to the ethane molecule being classified as formally achiral consistent with previous NG-QTAIM investigations. Future planned investigations using ultra-fast circularly polarized lasers are briefly discussed.

Original language	English
Journal	Journal of Computational Chemistry
Volume	Early View
Early online date	12 Sept 2023
DOIs	https://doi.org/10.1002/jcc.27225
Publication status	E-pub ahead of print - 12 Sept 2023

Keywords

Chiral
Electron dynamics
Ethane
Next generation quantum theory of atoms in molecules
Ultra-fast laser

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10.1002/jcc.27225

Mi_2023_JCC_Ethane_Laser_pulse_AAM
Copyright © 2023 the Authors. This work has been made available online in accordance with the University of St Andrews Open Access policy. This accepted manuscript is distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. The final published version of this work is available at https://doi.org/10.1002/jcc.27225.
Accepted author manuscript, 1.23 MBLicence: CC BY
Mi_2023_JCC_SupplMat_AAMAccepted author manuscript, 2.75 MBLicence: CC BY

Cite this

@article{184b7b7dc8094987a4f0a08f01ea1a49,

title = "Response of the mechanical and chiral character of ethane to ultra-fast laser pulses",

abstract = "A pair of simulated left and right circularly polarized ultra-fast laser pulses of duration 20 femtoseconds that induce a mixture of excited states are applied to ethane. The response of the electron dynamics is investigated within the next generation quantum theory of atoms in molecules (NG-QTAIM) using third-generation eigenvector-trajectories which are introduced in this work. This enables an analysis of the mechanical and chiral properties of the electron dynamics of ethane without needing to subject the C-C bond to external torsions as was the case for second-generation eigenvector-trajectories. The mechanical properties, in particular, the bond-flexing and bond-torsion were found to increase depending on the plane of the applied laser pulses. The bond-flexing and bond-torsion, depending on the plane of polarization, increases or decreases after the laser pulses are switched off. This is explainable in terms of directionally-dependent effects of the long-lasting superpositions of excited states. The chiral properties correspond to the ethane molecule being classified as formally achiral consistent with previous NG-QTAIM investigations. Future planned investigations using ultra-fast circularly polarized lasers are briefly discussed.",

keywords = "Chiral, Electron dynamics, Ethane, Next generation quantum theory of atoms in molecules, Ultra-fast laser",

author = "Mi, {Xiao Peng} and Hui Lu and Tianlv Xu and Herbert Fr{\"u}chtl and {van Mourik}, Tanja and Paterson, {Martin J.} and Kirk, {Steven R.} and Samantha Jenkins",

note = "Funding: The Hunan Natural Science Foundation of China project gratefully acknowledged approval number: 2022JJ30029. The One Hundred Talents Foundation of Hunan Province is also gratefully acknowledged for the support of S.J. and S.R.K. H.F. and T.v.M. gratefully acknowledge computational support via the EaStCHEM Research Computing Facility. We also would like to thank our sponsor Paul Ayers for provision access to SHARCnet Compute Canada supercomputing facilities.",

year = "2023",

month = sep,

day = "12",

doi = "10.1002/jcc.27225",

language = "English",

volume = "Early View",

journal = "Journal of Computational Chemistry",

issn = "0192-8651",

publisher = "John Wiley & Sons, Ltd",

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TY - JOUR

T1 - Response of the mechanical and chiral character of ethane to ultra-fast laser pulses

AU - Mi, Xiao Peng

AU - Lu, Hui

AU - Xu, Tianlv

AU - Früchtl, Herbert

AU - van Mourik, Tanja

AU - Paterson, Martin J.

AU - Kirk, Steven R.

AU - Jenkins, Samantha

N1 - Funding: The Hunan Natural Science Foundation of China project gratefully acknowledged approval number: 2022JJ30029. The One Hundred Talents Foundation of Hunan Province is also gratefully acknowledged for the support of S.J. and S.R.K. H.F. and T.v.M. gratefully acknowledge computational support via the EaStCHEM Research Computing Facility. We also would like to thank our sponsor Paul Ayers for provision access to SHARCnet Compute Canada supercomputing facilities.

PY - 2023/9/12

Y1 - 2023/9/12

N2 - A pair of simulated left and right circularly polarized ultra-fast laser pulses of duration 20 femtoseconds that induce a mixture of excited states are applied to ethane. The response of the electron dynamics is investigated within the next generation quantum theory of atoms in molecules (NG-QTAIM) using third-generation eigenvector-trajectories which are introduced in this work. This enables an analysis of the mechanical and chiral properties of the electron dynamics of ethane without needing to subject the C-C bond to external torsions as was the case for second-generation eigenvector-trajectories. The mechanical properties, in particular, the bond-flexing and bond-torsion were found to increase depending on the plane of the applied laser pulses. The bond-flexing and bond-torsion, depending on the plane of polarization, increases or decreases after the laser pulses are switched off. This is explainable in terms of directionally-dependent effects of the long-lasting superpositions of excited states. The chiral properties correspond to the ethane molecule being classified as formally achiral consistent with previous NG-QTAIM investigations. Future planned investigations using ultra-fast circularly polarized lasers are briefly discussed.

AB - A pair of simulated left and right circularly polarized ultra-fast laser pulses of duration 20 femtoseconds that induce a mixture of excited states are applied to ethane. The response of the electron dynamics is investigated within the next generation quantum theory of atoms in molecules (NG-QTAIM) using third-generation eigenvector-trajectories which are introduced in this work. This enables an analysis of the mechanical and chiral properties of the electron dynamics of ethane without needing to subject the C-C bond to external torsions as was the case for second-generation eigenvector-trajectories. The mechanical properties, in particular, the bond-flexing and bond-torsion were found to increase depending on the plane of the applied laser pulses. The bond-flexing and bond-torsion, depending on the plane of polarization, increases or decreases after the laser pulses are switched off. This is explainable in terms of directionally-dependent effects of the long-lasting superpositions of excited states. The chiral properties correspond to the ethane molecule being classified as formally achiral consistent with previous NG-QTAIM investigations. Future planned investigations using ultra-fast circularly polarized lasers are briefly discussed.

KW - Chiral

KW - Electron dynamics

KW - Ethane

KW - Next generation quantum theory of atoms in molecules

KW - Ultra-fast laser

U2 - 10.1002/jcc.27225

DO - 10.1002/jcc.27225

M3 - Article

SN - 0192-8651

VL - Early View

JO - Journal of Computational Chemistry

JF - Journal of Computational Chemistry

ER -

Response of the mechanical and chiral character of ethane to ultra-fast laser pulses

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Keywords

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