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![Page 1: 1 Pairings in quark-baryonic matter Qun Wang University of Science and Technology of China Introduction CSC: from weak to strong couplings Boson-fermion.](https://reader031.fdocuments.net/reader031/viewer/2022013004/5697bf831a28abf838c867dd/html5/thumbnails/1.jpg)
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PairingsPairings in in quark-baryonic matterquark-baryonic matter
Qun WangUniversity of Science and Technology of China
Introduction CSC: from weak to strong couplings Boson-fermion model for BCS-BEC crossover Baryon formation in quark-diquark model Discussions and outlooks
• J. Deng, A. Schmitt, QW, Phys.Rev.D76:034013,2007• J. Deng, J.-C. Wang, QW, Phys.Rev.D78:034014,2008• J.-C. Wang, QW, D. Rischke, in preparation
The 9th workshop on particle, nuclear physics and cosmology, Inner-Mongolia, July 19-24, 2010
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Phase diagram ofPhase diagram of SStrongly interacting trongly interacting QQuark uark GGluon luon PPlasmalasma
See e.g.
• Braun-Munzinger, Wambach, 2008 (review)
• Ruester,Werth,Buballa, Shovkovy,Rischke,2005
•Fukushima, Kouvaris, Rajagopal, 2005
•Blaschke, Fredriksson, Grigorian, Oztas, Sandin, 2005
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Freezeout temperature and chemical Freezeout temperature and chemical potential in potential in HHeavy eavy IIon on CCollisionsollisions
Andronic, Braun-Munzinger, Stachel, 2006Braun-Munzinger,Magestro,Redlich,Stachel, 2001 Cold baryonic matter
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CCoolloorr superconductivity in superconductivity in neutron starsneutron stars
Webber, astro-ph/0407155
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Where does QGP meet cold atomsWhere does QGP meet cold atoms
Strongly coupled many body system
Yes
Relativistic
Yes
Non-relativistic
Collective flow Yes Yes
AdS/CFT Maybe Maybe
BCS pairing/BEC Yes Yes
Three particle bound state Yes, baryon
Yes, trimer
Nucleon pairings in nuclear shell structure
Feschbach resonanceIn baryon resonances
BCS pairings in Superconductivity
Feschbach resonanceIn cold atom system
QGP cold atoms
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WhyWhy c coolloorr superconductivity superconductivity
Anti-symmetric channel: attractive interaction
Energy gap in quasi-particle excitation
Also see talks: Huang, Shovkovy
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CCoolloorr superconductivity - weak coupling superconductivity - weak coupling
Weak coupling gap equation (DS equation) in asymptotically high density
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[Son 1999; Schafer,Wilczek 2000; Hong et al. 2000; Pisarski,Rischke 2000; Brown et al 2000; Wang,Rischke 2002; Schmitt,Wang,Rischke 2003]
Weak coupling solution to gap equation Weak coupling solution to gap equation
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Gauge parameter dependenceGauge parameter dependence
Gerhold, Rebhan, 2003Hou, QW, Rischke, 2004
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Generalised Ward identity with condensateGeneralised Ward identity with condensate
It can be proved that the contribution is of subsubleading order if all excitations are gapped
H.J.Xu and QW, 2010
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Pairings within the same flavorPairings within the same flavor
Schmitt, QW, Rischke, Phys.Rev.Lett.91, 242301(2003)Schmitt, Phys.Rev.D71, 054016(2005)
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Meissner effects in weak couplingMeissner effects in weak coupling
Son, Stephanov, Phys.Rev.D61,074012(2000);Schmitt, QW, Rischke, Phys. Rev. D69, 094017(2004); Phys. Rev. Lett.91, 242301(2003)
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Meissner effects in weak coupling: resultsMeissner effects in weak coupling: results
■ Rotated photon in CSL phase has a non-vanishing mass: ElectromagneticMeissner effect.■ Although rotated photon in polar phase has a zero mass but a system with 2 or 3 favors still exhibits Electromagnetic Meissner effect because of different chemical potential or no single mixing angle for all favors.
Schmitt, QW, Rischke, 2003, 2004
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Effective Theory of dense matterEffective Theory of dense matter
Hong, 2000Schaefer, 2002, 2003Reuter, QW, Rischke, 2004
Controlled calculation in QCD
physics dominated by strip close to Fermi surface
separation of scales and need for EFT
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It (QCD) provides the answer to a child-like question: What happens to matter, as you squeeze it harder and
harder?
-- Wilczek
Answer: Perturbation in QCD in weak coupling
An opposite question: What happens to matter, as you increase interactions stronger and stronger?
What happens to quark-quark pairings: do they survive stronger and stronger interactions?
Answer: unclear
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BCSBCS--BECBEC Crossover Crossover
Science
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RRelativistic BCS-BEC crossoverelativistic BCS-BEC crossover
Recent works by other group:
• Nishida & Abuki, PRD 2007 -- NJL approach Abuki, NPA 2007 – Static and Dynamic properties • Sun, He & Zhuang, PRD 2007 – NJL approach • He & Zhuang, PRD 2007 – Beyond mean field• Kitazawa, Rischke & Shovkovy, arXiv:0709.2235v1 –
NJL+phase diagram• Brauner, arXiv:0803.2422 – Collective excitations • Chatterjee, Mishra, Mishra, arXiv:0804.1051 -- Variational
approach
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Relativistic boson-fermion Relativistic boson-fermion model (model (MFAMFA))
With With bosonicbosonic and and fermionicfermionic degrees of freedom and their degrees of freedom and their coupling, but neglect the coupling of thermal bosons coupling, but neglect the coupling of thermal bosons
and fermions as and fermions as MMean ean FField ield AApproximationpproximation Friedberg-Lee model, 1989
zero mode of boson
J. Deng, A. Schmitt, QW, Phys.Rev.D76:034013,2007
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Thermodynamic potetialThermodynamic potetial
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Density and gap Density and gap equationsequations
Crossover parameterCrossover parameter
x<0, BCS regimex>0, BEC regime
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At zero T or critical TAt zero T or critical T
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Dispersion Dispersion relationrelation
In In BCSBCS regime, fermions are slightly gapped, anti- regime, fermions are slightly gapped, anti-fermions are strongly gapped. fermions are strongly gapped.
In In BECBEC regime, both are strongly gapped, indicating the regime, both are strongly gapped, indicating the formation of bound states with large binding energyformation of bound states with large binding energy
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Finite TFinite T
BCSBCS regime: regime: Melting condensation Melting condensation of of fermion pairsfermion pairs
BECBEC regime: regime: Melting condensation of Melting condensation of bosonsbosons
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Unitary RegimeUnitary Regime
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Pairing with imbalance populationPairing with imbalance population
• Alford, Berges & Rajagopal, PRL 2000; Alford, Kouvaris & Rajagopal, PRL 04, PRD 05 -- Gapless and crystalline color superconductivity (LOFF)• Huang, Shovkovy, PLB 2003 and NPA 2003; PRD 04; PRD 04 -- Gapless color superconductivity in 2SC, instablility in Meissner masses • Many others ……
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Fermi surface topologiesFermi surface topologies
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Homogeneous Homogeneous solutionsolution
The fermion-boson mixture in BCS-BEC regime has been found The fermion-boson mixture in BCS-BEC regime has been found in cold atomic system. Stable gapless phase in strong in cold atomic system. Stable gapless phase in strong coupling (see also Kitazawa,Rischke, Shovkovy, 2006) coupling (see also Kitazawa,Rischke, Shovkovy, 2006)
[ Realization of a strongly interacting Bose-Fermi mixture [ Realization of a strongly interacting Bose-Fermi mixture from a two-component Fermi gas, MIT group, arXiv:0805.0623 from a two-component Fermi gas, MIT group, arXiv:0805.0623 ]]
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Phase diagramPhase diagram
Shaded area: unstable, with negative susceptibility
Non-relativistic relativistic
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Diquarks in baryonsDiquarks in baryons
Quarks, diquarks and pentaquarks, Jaffe, Wilczek, 2004[Diquarks as building blocks of exotic hadrons]
Diquark models:Anselmino, et al., 1993Abu-Raddad,Hosaka,Ebert,Toki, 2002Many other papers……
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Diquarks in baryonsDiquarks in baryons
Diquark-cluster Meson Cloud
Diquark configuration in proton: positive magnetic moments from strange quarks Zou, Riska, 2005
u
du
SS
Su
uS
d
Diquark configuration: inverse mass order in resonances Zou, 2007
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Quark-baryonic matter crossover Quark-baryonic matter crossover in N_f=3 dense matter in N_f=3 dense matter
BCS-BEC crossoverwith boson-fermion model
crossover of quark-baryonic matter
■ Continuity of quark and hadron matter, Schafer, Wilczek, 2000[ CFL-hadronic matter: a weak coupling realization of confinement and chiral symmetry breaking in idealization of QCD ]
■ New critical point induced by the axial anomaly in dense QCD, Hatsuda, Tachibana, Yamamoto, Baym, 2006
■ N_f=3, there is a new critical point near chemical potential axis due to coupling of chiral and diquark condensate: quark-nuclear matter crossover
■ N_f=2, no critical point: quark-nuclear matter transition
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Baryonic pole structure in quark Baryonic pole structure in quark and nuclear matter: quark-diquark and nuclear matter: quark-diquark
modelmodelchiral condensatediquark condensateTwo flavor case
J.-C. Wang, QW, D. Rischkein preparation
Relativistic version of trimer
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Di-quark pole structure in dense Di-quark pole structure in dense mattermatter
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Di-quark pole structure in dense Di-quark pole structure in dense mattermatter
In chiral symmetry broken phase, when G_D is large,
there are diquark poles
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Baryonic pole structure in quark Baryonic pole structure in quark and nuclear matterand nuclear matter
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Baryonic pole structure in quark Baryonic pole structure in quark and nuclear matter: phase diagramand nuclear matter: phase diagram
J.-C. Wang, QW, D. Rischkein preparation
Dissociation Boundary:
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Diquark spectral densityDiquark spectral density
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Imaginary and real parts of inverse Imaginary and real parts of inverse baryon propagatorbaryon propagator
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Baryon spectral densityBaryon spectral density
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Baryon phase diagramBaryon phase diagram
Similar to Efimov state
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SummarySummary
CSC CSC in weak and intermediate couplings has been in weak and intermediate couplings has been extensively studied. extensively studied.
RelativisticRelativistic BCS BCS--BECBEC crossover can be well described crossover can be well described in boson-fermion model within or beyond in boson-fermion model within or beyond MFAMFA..
With With chemical potential mismatchchemical potential mismatch, part of gapless , part of gapless solutions are stable in strong couplings. solutions are stable in strong couplings. [Recent experiments in cold atom system][Recent experiments in cold atom system]
FluctuationFluctuation effects lead to first order transition. effects lead to first order transition.
Baryon formationBaryon formation is controlled by chiral symmetry and is controlled by chiral symmetry and can be described by quark-diquark model in dense can be described by quark-diquark model in dense matter. matter. [99% of nucleon mass from χ-symmetry]
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OutlookOutlook
Our model can be extended to discuss Our model can be extended to discuss quarkoynic quarkoynic continuity with finite chemical continuity with finite chemical potential where the confinement and chiral potential where the confinement and chiral symmetry breaking do not coincide (L. symmetry breaking do not coincide (L. Mclerran and R. D. Pisarski ).Mclerran and R. D. Pisarski ).
Quark-baryonic matter crossover Quark-baryonic matter crossover for three for three flavor case in quark-diquark picture.flavor case in quark-diquark picture.