Use of partial-wave decomposition to identify resonant interference effects in the photoionization-excitation of argon

T.J. Gay; C.H. Greene; J.R. Machacek; K.W. McLaughlin; Hugo Van Der Hart; O. Yenen; D.H. Jaecks

doi:10.1088/0953-4075/42/4/044008

Use of partial-wave decomposition to identify resonant interference effects in the photoionization-excitation of argon

T.J. Gay, C.H. Greene, J.R. Machacek, K.W. McLaughlin, Hugo Van Der Hart, O. Yenen, D.H. Jaecks

School of Mathematics and Physics

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Abstract

We have studied simultaneous photoionization and excitation of Ar in the range of incident photon energies between 36.00 and 36.36 eV, where the resonant production of doubly excited neutral Ar states imbedded in the ionization continuum is dominant. By measuring the relative Stokes parameters of the fluorescence from residual Ar+* (3p4 [3P] 4p) ions (2P1/2, 465.8 nm transition; 2P3/2, 476.5 nm; 2D3/2, 472.7 nm; 2D5/2, 488.0 nm; 4P5/2, 480.6 nm; 4D5/2, 514.5 nm) we demonstrate a technique for determining individual partial-wave cross sections in photoionizing collisions. This procedure is shown to be important in sorting out competing dynamical ionization mechanisms, particularly with regard to resonant production of intermediate doubly excited autoionizing states. Comparison with theoretical photoionization cross sections demonstrates that spin–orbit coupling between different states of Ar II needs to be accounted for in the calculations.

Original language	English
Article number	044008
Number of pages	18
Journal	Journal of Physics B: Atomic Molecular and Optical Physics
Volume	42
Issue number	4
DOIs	https://doi.org/10.1088/0953-4075/42/4/044008
Publication status	Published - 03 Feb 2009

ASJC Scopus subject areas

Condensed Matter Physics
Atomic and Molecular Physics, and Optics

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Use of partial-wave decomposition to identify resonant interference effects in the photoionization-excitation of argon
Copyright 2009 IOP Publishing Ltd. This manuscript is distributed under a Creative Commons Attribution-NonCommercial-NoDerivs License (https://creativecommons.org/licenses/by-nc-nd/4.0/), which permits distribution and reproduction for non-commercial purposes, provided the author and source are cited.
Accepted author manuscript, 1.24 MBLicence: CC BY-NC-ND

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title = "Use of partial-wave decomposition to identify resonant interference effects in the photoionization-excitation of argon",

abstract = "We have studied simultaneous photoionization and excitation of Ar in the range of incident photon energies between 36.00 and 36.36 eV, where the resonant production of doubly excited neutral Ar states imbedded in the ionization continuum is dominant. By measuring the relative Stokes parameters of the fluorescence from residual Ar+* (3p4 [3P] 4p) ions (2P1/2, 465.8 nm transition; 2P3/2, 476.5 nm; 2D3/2, 472.7 nm; 2D5/2, 488.0 nm; 4P5/2, 480.6 nm; 4D5/2, 514.5 nm) we demonstrate a technique for determining individual partial-wave cross sections in photoionizing collisions. This procedure is shown to be important in sorting out competing dynamical ionization mechanisms, particularly with regard to resonant production of intermediate doubly excited autoionizing states. Comparison with theoretical photoionization cross sections demonstrates that spin–orbit coupling between different states of Ar II needs to be accounted for in the calculations.",

author = "T.J. Gay and C.H. Greene and J.R. Machacek and K.W. McLaughlin and {Van Der Hart}, Hugo and O. Yenen and D.H. Jaecks",

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T1 - Use of partial-wave decomposition to identify resonant interference effects in the photoionization-excitation of argon

AU - Gay, T.J.

AU - Greene, C.H.

AU - Machacek, J.R.

AU - McLaughlin, K.W.

AU - Van Der Hart, Hugo

AU - Yenen, O.

AU - Jaecks, D.H.

PY - 2009/2/3

Y1 - 2009/2/3

N2 - We have studied simultaneous photoionization and excitation of Ar in the range of incident photon energies between 36.00 and 36.36 eV, where the resonant production of doubly excited neutral Ar states imbedded in the ionization continuum is dominant. By measuring the relative Stokes parameters of the fluorescence from residual Ar+* (3p4 [3P] 4p) ions (2P1/2, 465.8 nm transition; 2P3/2, 476.5 nm; 2D3/2, 472.7 nm; 2D5/2, 488.0 nm; 4P5/2, 480.6 nm; 4D5/2, 514.5 nm) we demonstrate a technique for determining individual partial-wave cross sections in photoionizing collisions. This procedure is shown to be important in sorting out competing dynamical ionization mechanisms, particularly with regard to resonant production of intermediate doubly excited autoionizing states. Comparison with theoretical photoionization cross sections demonstrates that spin–orbit coupling between different states of Ar II needs to be accounted for in the calculations.

AB - We have studied simultaneous photoionization and excitation of Ar in the range of incident photon energies between 36.00 and 36.36 eV, where the resonant production of doubly excited neutral Ar states imbedded in the ionization continuum is dominant. By measuring the relative Stokes parameters of the fluorescence from residual Ar+* (3p4 [3P] 4p) ions (2P1/2, 465.8 nm transition; 2P3/2, 476.5 nm; 2D3/2, 472.7 nm; 2D5/2, 488.0 nm; 4P5/2, 480.6 nm; 4D5/2, 514.5 nm) we demonstrate a technique for determining individual partial-wave cross sections in photoionizing collisions. This procedure is shown to be important in sorting out competing dynamical ionization mechanisms, particularly with regard to resonant production of intermediate doubly excited autoionizing states. Comparison with theoretical photoionization cross sections demonstrates that spin–orbit coupling between different states of Ar II needs to be accounted for in the calculations.

U2 - 10.1088/0953-4075/42/4/044008

DO - 10.1088/0953-4075/42/4/044008

M3 - Article

SN - 0953-4075

VL - 42

JO - Journal of Physics B: Atomic Molecular and Optical Physics

JF - Journal of Physics B: Atomic Molecular and Optical Physics

IS - 4

M1 - 044008

ER -

Use of partial-wave decomposition to identify resonant interference effects in the photoionization-excitation of argon

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