Single-photon Coulomb explosion of methanol using broad bandwidth ultrafast EUV pulses

Itamar Luzon; Krishna Jagtap; Ester Livshits; Oleg Lioubashevski; Roi Baer; Daniel Strasser

doi:10.1039/c7cp00587c

Single-photon Coulomb explosion of methanol using broad bandwidth ultrafast EUV pulses

Itamar Luzon, Krishna Jagtap, Ester Livshits, Oleg Lioubashevski, Roi Baer, Daniel Strasser

Institute of Chemistry

The Hebrew University of Jerusalem

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

Abstract

Single-photon Coulomb explosion of methanol is instigated using the broad bandwidth pulse achieved through high-order harmonics generation. Using 3D coincidence fragment imaging of one molecule at a time, the kinetic energy release (KER) and angular distributions of the products are measured in different Coulomb explosion (CE) channels. Two-body CE channels breaking either the C-O or the C-H bonds are described as well as a proton migration channel forming H₂O⁺, which is shown to exhibit higher KER. The results are compared to intense-field Coulomb explosion measurements in the literature. The interpretation of broad bandwidth single-photon CE data is discussed and supported by ab initio calculations of the predominant C-O bond breaking CE channel. We discuss the importance of these findings for achieving time resolved imaging of ultrafast dynamics.

Original language	English
Pages (from-to)	13488-13495
Number of pages	8
Journal	Physical Chemistry Chemical Physics
Volume	19
Issue number	21
DOIs	https://doi.org/10.1039/c7cp00587c
State	Published - 2017

All Science Journal Classification (ASJC) codes

General Physics and Astronomy
Physical and Theoretical Chemistry

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title = "Single-photon Coulomb explosion of methanol using broad bandwidth ultrafast EUV pulses",

abstract = "Single-photon Coulomb explosion of methanol is instigated using the broad bandwidth pulse achieved through high-order harmonics generation. Using 3D coincidence fragment imaging of one molecule at a time, the kinetic energy release (KER) and angular distributions of the products are measured in different Coulomb explosion (CE) channels. Two-body CE channels breaking either the C-O or the C-H bonds are described as well as a proton migration channel forming H2O+, which is shown to exhibit higher KER. The results are compared to intense-field Coulomb explosion measurements in the literature. The interpretation of broad bandwidth single-photon CE data is discussed and supported by ab initio calculations of the predominant C-O bond breaking CE channel. We discuss the importance of these findings for achieving time resolved imaging of ultrafast dynamics.",

author = "Itamar Luzon and Krishna Jagtap and Ester Livshits and Oleg Lioubashevski and Roi Baer and Daniel Strasser",

note = "Publisher Copyright: {\textcopyright} the Owner Societies 2017.",

year = "2017",

doi = "10.1039/c7cp00587c",

language = "الإنجليزيّة",

volume = "19",

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publisher = "Royal Society of Chemistry",

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T1 - Single-photon Coulomb explosion of methanol using broad bandwidth ultrafast EUV pulses

AU - Luzon, Itamar

AU - Jagtap, Krishna

AU - Livshits, Ester

AU - Lioubashevski, Oleg

AU - Baer, Roi

AU - Strasser, Daniel

PY - 2017

Y1 - 2017

N2 - Single-photon Coulomb explosion of methanol is instigated using the broad bandwidth pulse achieved through high-order harmonics generation. Using 3D coincidence fragment imaging of one molecule at a time, the kinetic energy release (KER) and angular distributions of the products are measured in different Coulomb explosion (CE) channels. Two-body CE channels breaking either the C-O or the C-H bonds are described as well as a proton migration channel forming H2O+, which is shown to exhibit higher KER. The results are compared to intense-field Coulomb explosion measurements in the literature. The interpretation of broad bandwidth single-photon CE data is discussed and supported by ab initio calculations of the predominant C-O bond breaking CE channel. We discuss the importance of these findings for achieving time resolved imaging of ultrafast dynamics.

AB - Single-photon Coulomb explosion of methanol is instigated using the broad bandwidth pulse achieved through high-order harmonics generation. Using 3D coincidence fragment imaging of one molecule at a time, the kinetic energy release (KER) and angular distributions of the products are measured in different Coulomb explosion (CE) channels. Two-body CE channels breaking either the C-O or the C-H bonds are described as well as a proton migration channel forming H2O+, which is shown to exhibit higher KER. The results are compared to intense-field Coulomb explosion measurements in the literature. The interpretation of broad bandwidth single-photon CE data is discussed and supported by ab initio calculations of the predominant C-O bond breaking CE channel. We discuss the importance of these findings for achieving time resolved imaging of ultrafast dynamics.

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U2 - 10.1039/c7cp00587c

DO - 10.1039/c7cp00587c

M3 - مقالة

C2 - 28435961

SN - 1463-9076

VL - 19

SP - 13488

EP - 13495

JO - Physical Chemistry Chemical Physics

JF - Physical Chemistry Chemical Physics

IS - 21

ER -

Single-photon Coulomb explosion of methanol using broad bandwidth ultrafast EUV pulses

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