Electron-impact excitation rate-coefficients and polarization of subsequent emission for Ar+ ion

Electron impact excitation in Ar+ ions has been studied by using fully relativistic distorted wave theory. Calculations are performed to obtain the excitation cross-sections and rate-coefficients for the transitions from the ground state 3p 5 (J=3/2) to fine-structure levels of excited states 3p 44s...
Ausführliche Beschreibung

Gespeichert in:

Autor*in:	Dipti [verfasserIn] Srivastava, Rajesh

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2016transfer abstract

Schlagwörter:	Polarization Electron-impact excitation Relativistic distorted wave theory Rate coefficients

Umfang:	12

Übergeordnetes Werk:	Enthalten in: Self-supervised multimodal reconstruction pre-training for retinal computer-aided diagnosis - Hervella, Álvaro S. ELSEVIER, 2021, JQSRT, New York, NY [u.a.]
Übergeordnetes Werk:	volume:176 ; year:2016 ; pages:12-23 ; extent:12

Links:	Volltext

DOI / URN:	10.1016/j.jqsrt.2016.02.015

Katalog-ID:	ELV030141095

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520			\|a Electron impact excitation in Ar+ ions has been studied by using fully relativistic distorted wave theory. Calculations are performed to obtain the excitation cross-sections and rate-coefficients for the transitions from the ground state 3p 5 (J=3/2) to fine-structure levels of excited states 3p 44s, 3p 44p, 3p 45s, 3p 45p, 3p 43d and 3p 44d. Polarization of the radiation following the excitation has been calculated using the obtained magnetic sub-level cross-sections. Comparison of the present rate-coefficients is also done with the previously reported theoretical results for some unresolved fine structure transitions.
520			\|a Electron impact excitation in Ar+ ions has been studied by using fully relativistic distorted wave theory. Calculations are performed to obtain the excitation cross-sections and rate-coefficients for the transitions from the ground state 3p 5 (J=3/2) to fine-structure levels of excited states 3p 44s, 3p 44p, 3p 45s, 3p 45p, 3p 43d and 3p 44d. Polarization of the radiation following the excitation has been calculated using the obtained magnetic sub-level cross-sections. Comparison of the present rate-coefficients is also done with the previously reported theoretical results for some unresolved fine structure transitions.
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allfields	10.1016/j.jqsrt.2016.02.015 doi GBVA2016023000015.pica (DE-627)ELV030141095 (ELSEVIER)S0022-4073(15)30283-1 DE-627 ger DE-627 rakwb eng 530 530 DE-600 004 VZ 54.72 bkl Dipti verfasserin aut Electron-impact excitation rate-coefficients and polarization of subsequent emission for Ar+ ion 2016transfer abstract 12 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Electron impact excitation in Ar+ ions has been studied by using fully relativistic distorted wave theory. Calculations are performed to obtain the excitation cross-sections and rate-coefficients for the transitions from the ground state 3p 5 (J=3/2) to fine-structure levels of excited states 3p 44s, 3p 44p, 3p 45s, 3p 45p, 3p 43d and 3p 44d. Polarization of the radiation following the excitation has been calculated using the obtained magnetic sub-level cross-sections. Comparison of the present rate-coefficients is also done with the previously reported theoretical results for some unresolved fine structure transitions. Electron impact excitation in Ar+ ions has been studied by using fully relativistic distorted wave theory. Calculations are performed to obtain the excitation cross-sections and rate-coefficients for the transitions from the ground state 3p 5 (J=3/2) to fine-structure levels of excited states 3p 44s, 3p 44p, 3p 45s, 3p 45p, 3p 43d and 3p 44d. Polarization of the radiation following the excitation has been calculated using the obtained magnetic sub-level cross-sections. Comparison of the present rate-coefficients is also done with the previously reported theoretical results for some unresolved fine structure transitions. Polarization Elsevier Electron-impact excitation Elsevier Relativistic distorted wave theory Elsevier Rate coefficients Elsevier Srivastava, Rajesh oth Enthalten in Elsevier Hervella, Álvaro S. ELSEVIER Self-supervised multimodal reconstruction pre-training for retinal computer-aided diagnosis 2021 JQSRT New York, NY [u.a.] (DE-627)ELV006657966 volume:176 year:2016 pages:12-23 extent:12 https://doi.org/10.1016/j.jqsrt.2016.02.015 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 54.72 Künstliche Intelligenz VZ AR 176 2016 12-23 12 045F 530
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title_sort	electron-impact excitation rate-coefficients and polarization of subsequent emission for ar+ ion
title_auth	Electron-impact excitation rate-coefficients and polarization of subsequent emission for Ar+ ion
abstract	Electron impact excitation in Ar+ ions has been studied by using fully relativistic distorted wave theory. Calculations are performed to obtain the excitation cross-sections and rate-coefficients for the transitions from the ground state 3p 5 (J=3/2) to fine-structure levels of excited states 3p 44s, 3p 44p, 3p 45s, 3p 45p, 3p 43d and 3p 44d. Polarization of the radiation following the excitation has been calculated using the obtained magnetic sub-level cross-sections. Comparison of the present rate-coefficients is also done with the previously reported theoretical results for some unresolved fine structure transitions.
abstractGer	Electron impact excitation in Ar+ ions has been studied by using fully relativistic distorted wave theory. Calculations are performed to obtain the excitation cross-sections and rate-coefficients for the transitions from the ground state 3p 5 (J=3/2) to fine-structure levels of excited states 3p 44s, 3p 44p, 3p 45s, 3p 45p, 3p 43d and 3p 44d. Polarization of the radiation following the excitation has been calculated using the obtained magnetic sub-level cross-sections. Comparison of the present rate-coefficients is also done with the previously reported theoretical results for some unresolved fine structure transitions.
abstract_unstemmed	Electron impact excitation in Ar+ ions has been studied by using fully relativistic distorted wave theory. Calculations are performed to obtain the excitation cross-sections and rate-coefficients for the transitions from the ground state 3p 5 (J=3/2) to fine-structure levels of excited states 3p 44s, 3p 44p, 3p 45s, 3p 45p, 3p 43d and 3p 44d. Polarization of the radiation following the excitation has been calculated using the obtained magnetic sub-level cross-sections. Comparison of the present rate-coefficients is also done with the previously reported theoretical results for some unresolved fine structure transitions.
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title_short	Electron-impact excitation rate-coefficients and polarization of subsequent emission for Ar+ ion
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doi_str	10.1016/j.jqsrt.2016.02.015
up_date	2024-07-06T16:48:27.577Z
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Electron-impact excitation rate-coefficients and polarization of subsequent emission for Ar+ ion

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