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Multi-mass velocity map imaging study of the ultraviolet photodissociaton of dimethyl sulfide using single photon ionization and a PImMS2 sensor.

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Multi-mass velocity map imaging study of the ultraviolet photodissociaton of dimethyl sulfide using single photon ionization and a PImMS2 sensor. / Bain, Matthew; Hansen, Christopher S.; Ashfold, Michael N.R.

In: Journal of Chemical Physics, Vol. 149, No. 8, 081103, 30.08.2018.

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@article{1b97c852125d4645b045b538e3275837,
title = "Multi-mass velocity map imaging study of the ultraviolet photodissociaton of dimethyl sulfide using single photon ionization and a PImMS2 sensor.",
abstract = "This study of the photodissociation of dimethyl sulfide at λ = 227.5 nm demonstrates the opportunities (and some of the challenges) of product detection using vacuum ultraviolet photoionization combined with recently developed multi-mass imaging methods. The capability of imaging different charged products simultaneously allows determination of the primary fragmentation dynamics through, for example, product fragment momentum and angular distribution matching and reveals potential complications from dissociative ionization, product alignment-dependent photoionization probabilities, and the effects of space charging.",
author = "Matthew Bain and Hansen, {Christopher S.} and Ashfold, {Michael N.R.}",
year = "2018",
month = "8",
day = "30",
doi = "10.1063/1.5048838",
language = "English",
volume = "149",
journal = "Journal of Chemical Physics",
issn = "0021-9606",
publisher = "American Institute of Physics (AIP)",
number = "8",

}

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TY - JOUR

T1 - Multi-mass velocity map imaging study of the ultraviolet photodissociaton of dimethyl sulfide using single photon ionization and a PImMS2 sensor.

AU - Bain, Matthew

AU - Hansen, Christopher S.

AU - Ashfold, Michael N.R.

PY - 2018/8/30

Y1 - 2018/8/30

N2 - This study of the photodissociation of dimethyl sulfide at λ = 227.5 nm demonstrates the opportunities (and some of the challenges) of product detection using vacuum ultraviolet photoionization combined with recently developed multi-mass imaging methods. The capability of imaging different charged products simultaneously allows determination of the primary fragmentation dynamics through, for example, product fragment momentum and angular distribution matching and reveals potential complications from dissociative ionization, product alignment-dependent photoionization probabilities, and the effects of space charging.

AB - This study of the photodissociation of dimethyl sulfide at λ = 227.5 nm demonstrates the opportunities (and some of the challenges) of product detection using vacuum ultraviolet photoionization combined with recently developed multi-mass imaging methods. The capability of imaging different charged products simultaneously allows determination of the primary fragmentation dynamics through, for example, product fragment momentum and angular distribution matching and reveals potential complications from dissociative ionization, product alignment-dependent photoionization probabilities, and the effects of space charging.

UR - http://www.scopus.com/inward/record.url?scp=85052724548&partnerID=8YFLogxK

U2 - 10.1063/1.5048838

DO - 10.1063/1.5048838

M3 - Article

C2 - 30193497

AN - SCOPUS:85052724548

VL - 149

JO - Journal of Chemical Physics

JF - Journal of Chemical Physics

SN - 0021-9606

IS - 8

M1 - 081103

ER -