Numerical portrait of a relativistic thin film BCS superfluid

Hands, Simon; Morrison, Susan; Lucini, Biagio

doi:10.1103/PhysRevD.65.036004

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Numerical portrait of a relativistic thin film BCS superfluid

Simon Hands, Susan Morrison, Biagio Lucini

Physical Review D, Volume: "D65", Issue: 3, Start page: 036004

Swansea University Author: Biagio Lucini

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DOI (Published version): 10.1103/PhysRevD.65.036004

Abstract

We present results of numerical simulations of the 2+1d Nambu - Jona-Lasinio model with a non-zero baryon chemical potential mu including the effects of a diquark source term. Diquark condensates, susceptibilities and masses are measured as functions of source strength j. The results suggest that di...

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Published in:	Physical Review D
ISSN:	0556-2821 1089-4918
Published:	2001
Online Access:	Check full text
URI:	https://cronfa.swan.ac.uk/Record/cronfa27961

first_indexed	2016-05-15T01:22:54Z
last_indexed	2018-02-09T05:11:35Z
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recordtype	SURis
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spelling	2016-05-14T16:42:28.0311943 v2 27961 2016-05-14 Numerical portrait of a relativistic thin film BCS superfluid 7e6fcfe060e07a351090e2a8aba363cf 0000-0001-8974-8266 Biagio Lucini Biagio Lucini true false 2016-05-14 MACS We present results of numerical simulations of the 2+1d Nambu - Jona-Lasinio model with a non-zero baryon chemical potential mu including the effects of a diquark source term. Diquark condensates, susceptibilities and masses are measured as functions of source strength j. The results suggest that diquark condensation does not take place in the high density phase mu>mu_c, but rather that the condensate scales non-analytically with j implying a line of critical points and long range phase coherence. Analogies are drawn with the low temperature phase of the 2d XY model. The spectrum of the spin-1/2 sector is also studied yielding the quasiparticle dispersion relation. There is no evidence for a non-zero gap; rather the results are characteristic of a normal Fermi liquid with Fermi velocity less than that of light. We conclude that the high density phase of the model describes a relativistic gapless thin film BCS superfluid. Journal Article Physical Review D "D65" 3 036004 0556-2821 1089-4918 30 9 2001 2001-09-30 10.1103/PhysRevD.65.036004 http://inspirehep.net/record/562280 COLLEGE NANME Mathematics and Computer Science School COLLEGE CODE MACS Swansea University 2016-05-14T16:42:28.0311943 2016-05-14T16:42:27.8439931 Faculty of Science and Engineering School of Biosciences, Geography and Physics - Physics Simon Hands 1 Susan Morrison 2 Biagio Lucini 0000-0001-8974-8266 3
title	Numerical portrait of a relativistic thin film BCS superfluid
spellingShingle	Numerical portrait of a relativistic thin film BCS superfluid Biagio Lucini
title_short	Numerical portrait of a relativistic thin film BCS superfluid
title_full	Numerical portrait of a relativistic thin film BCS superfluid
title_fullStr	Numerical portrait of a relativistic thin film BCS superfluid
title_full_unstemmed	Numerical portrait of a relativistic thin film BCS superfluid
title_sort	Numerical portrait of a relativistic thin film BCS superfluid
author_id_str_mv	7e6fcfe060e07a351090e2a8aba363cf
author_id_fullname_str_mv	7e6fcfe060e07a351090e2a8aba363cf_***_Biagio Lucini
author	Biagio Lucini
author2	Simon Hands Susan Morrison Biagio Lucini
format	Journal article
container_title	Physical Review D
container_volume	"D65"
container_issue	3
container_start_page	036004
publishDate	2001
institution	Swansea University
issn	0556-2821 1089-4918
doi_str_mv	10.1103/PhysRevD.65.036004
college_str	Faculty of Science and Engineering
hierarchytype
hierarchy_top_id	facultyofscienceandengineering
hierarchy_top_title	Faculty of Science and Engineering
hierarchy_parent_id	facultyofscienceandengineering
hierarchy_parent_title	Faculty of Science and Engineering
department_str	School of Biosciences, Geography and Physics - Physics{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Biosciences, Geography and Physics - Physics
url	http://inspirehep.net/record/562280
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description	We present results of numerical simulations of the 2+1d Nambu - Jona-Lasinio model with a non-zero baryon chemical potential mu including the effects of a diquark source term. Diquark condensates, susceptibilities and masses are measured as functions of source strength j. The results suggest that diquark condensation does not take place in the high density phase mu>mu_c, but rather that the condensate scales non-analytically with j implying a line of critical points and long range phase coherence. Analogies are drawn with the low temperature phase of the 2d XY model. The spectrum of the spin-1/2 sector is also studied yielding the quasiparticle dispersion relation. There is no evidence for a non-zero gap; rather the results are characteristic of a normal Fermi liquid with Fermi velocity less than that of light. We conclude that the high density phase of the model describes a relativistic gapless thin film BCS superfluid.
published_date	2001-09-30T01:05:06Z
_version_	1821365508401790976
score	11.04748

Numerical portrait of a relativistic thin film BCS superfluid

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