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Convergent close-coupling method: a `complete scattering theory`?

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Abstract

It is demonstrated that a single convergent close-coupling (CCC) calculation of 100 eV electron impact on the ground state of helium is able to provide accurate elastic and inelastic (n {<=} 3 levels) differential cross sections, as well as singly-, doubly-, and triply-, differential ionization cross sections. Hence, it is suggested that the CCC theory deserve the title of a `complete scattering theory`. 28 refs., 5 figs.
Authors:
Publication Date:
Sep 01, 1995
Product Type:
Technical Report
Report Number:
ESM-112
Reference Number:
SCA: 664300; 663510; PA: AIX-27:038954; EDB-96:083614; NTS-96:018252; SN: 96001586662
Resource Relation:
Other Information: PBD: Sep 1995
Subject:
66 PHYSICS; HELIUM; ELECTRON-ATOM COLLISIONS; IONIZATION; CALCULATION METHODS; CONVERGENCE; COUPLING; DIFFERENTIAL CROSS SECTIONS; ELASTIC SCATTERING; EV RANGE 10-100; EXPERIMENTAL DATA; INELASTIC SCATTERING; MANY-BODY PROBLEM; S MATRIX
OSTI ID:
223506
Research Organizations:
Flinders Univ. of South Australia, Adelaide, SA (Australia). Electronic Structure of Materials Centre
Country of Origin:
Australia
Language:
English
Other Identifying Numbers:
Other: ON: DE96623383; TRN: AU9615300038954
Availability:
INIS; OSTI as DE96623383
Submitting Site:
AUN
Size:
15 p.
Announcement Date:
May 21, 1996

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Citation Formats

Bray, I, and Fursa, D V. Convergent close-coupling method: a `complete scattering theory`?. Australia: N. p., 1995. Web.
Bray, I, &amp; Fursa, D V. Convergent close-coupling method: a `complete scattering theory`?. Australia.
Bray, I, and Fursa, D V. 1995. "Convergent close-coupling method: a `complete scattering theory`?" Australia.
@misc{etde_223506,
title = {Convergent close-coupling method: a `complete scattering theory`?}
 author = {Bray, I, and Fursa, D V}
 abstractNote = {It is demonstrated that a single convergent close-coupling (CCC) calculation of 100 eV electron impact on the ground state of helium is able to provide accurate elastic and inelastic (n {<=} 3 levels) differential cross sections, as well as singly-, doubly-, and triply-, differential ionization cross sections. Hence, it is suggested that the CCC theory deserve the title of a `complete scattering theory`. 28 refs., 5 figs.}
 place = {Australia}
 year = {1995}
 month = {Sep}
 }