Quantum suppression of antihydrogen formation in positronium-antiproton scattering

Kadyrov, A. S.; Bray, I.; Charlton, Michael; Fabrikant, I. I.

doi:10.1038/s41467-017-01721-y

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Quantum suppression of antihydrogen formation in positronium-antiproton scattering

A. S. Kadyrov, I. Bray, Michael Charlton, I. I. Fabrikant

Nature Communications, Volume: 8, Issue: 1

Swansea University Author: Michael Charlton

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DOI (Published version): 10.1038/s41467-017-01721-y

Abstract

Calculation of antihydrogen formation from antiproton-positronium collisions, with the positroniun in excited states. Novelty is the extension to positronium states with principal quantum numbers 4 and 5 and the discovery that the increase in the cross section is muted over simple expectations due t...

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Published in:	Nature Communications
ISSN:	2041-1723
Published:	Springer Science and Business Media LLC 2017
Online Access:	Check full text
URI:	https://cronfa.swan.ac.uk/Record/cronfa37024
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first_indexed	2017-11-23T14:05:17Z
last_indexed	2020-07-28T18:56:15Z
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spelling	2020-07-28T13:38:10.4643892 v2 37024 2017-11-23 Quantum suppression of antihydrogen formation in positronium-antiproton scattering d9099cdd0f182eb9a1c8fc36ed94f53f Michael Charlton Michael Charlton true false 2017-11-23 FGSEN Calculation of antihydrogen formation from antiproton-positronium collisions, with the positroniun in excited states. Novelty is the extension to positronium states with principal quantum numbers 4 and 5 and the discovery that the increase in the cross section is muted over simple expectations due to a suppression effect.This effect is due to a centrifugal barrier-type effect, which markedly reduces the influence of the higher angular momentum components which typically provide the cross section enhancements at lower values of n. Journal Article Nature Communications 8 1 Springer Science and Business Media LLC 2041-1723 1 12 2017 2017-12-01 10.1038/s41467-017-01721-y COLLEGE NANME Science and Engineering - Faculty COLLEGE CODE FGSEN Swansea University 2020-07-28T13:38:10.4643892 2017-11-23T08:48:13.6884962 Faculty of Science and Engineering School of Biosciences, Geography and Physics - Physics A. S. Kadyrov 1 I. Bray 2 Michael Charlton 3 I. I. Fabrikant 4 0037024-15122017131811.pdf 37024.pdf 2017-12-15T13:18:11.4270000 Output 509988 application/pdf Version of Record true This article is licensed under a Creative Commons Attribution 4.0 International License. true eng http://creativecommons.org/licenses/by/4.0/
title	Quantum suppression of antihydrogen formation in positronium-antiproton scattering
spellingShingle	Quantum suppression of antihydrogen formation in positronium-antiproton scattering Michael Charlton
title_short	Quantum suppression of antihydrogen formation in positronium-antiproton scattering
title_full	Quantum suppression of antihydrogen formation in positronium-antiproton scattering
title_fullStr	Quantum suppression of antihydrogen formation in positronium-antiproton scattering
title_full_unstemmed	Quantum suppression of antihydrogen formation in positronium-antiproton scattering
title_sort	Quantum suppression of antihydrogen formation in positronium-antiproton scattering
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author_id_fullname_str_mv	d9099cdd0f182eb9a1c8fc36ed94f53f_***_Michael Charlton
author	Michael Charlton
author2	A. S. Kadyrov I. Bray Michael Charlton I. I. Fabrikant
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container_title	Nature Communications
container_volume	8
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publishDate	2017
institution	Swansea University
issn	2041-1723
doi_str_mv	10.1038/s41467-017-01721-y
publisher	Springer Science and Business Media LLC
college_str	Faculty of Science and Engineering
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hierarchy_top_title	Faculty of Science and Engineering
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description	Calculation of antihydrogen formation from antiproton-positronium collisions, with the positroniun in excited states. Novelty is the extension to positronium states with principal quantum numbers 4 and 5 and the discovery that the increase in the cross section is muted over simple expectations due to a suppression effect.This effect is due to a centrifugal barrier-type effect, which markedly reduces the influence of the higher angular momentum components which typically provide the cross section enhancements at lower values of n.
published_date	2017-12-01T03:46:31Z
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Quantum suppression of antihydrogen formation in positronium-antiproton scattering

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