qcd 相転移における秩序変数 揺らぎとクォークスペクトル
DESCRIPTION
QCD 相転移における秩序変数 揺らぎとクォークスペクトル. 根本幸雄 ( 名古屋大 ) with 北沢正清 ( 基研 ) 国広悌二 ( 基研 ) 小出知威 ( Rio de Janeiro Federal U. ). Phase Diagram of QCD. T. (Quark Gluon Plasma phase)QGP. 2Tc. chiral sym. restored deconfinement. fluctuations of. PLB633,269,2006 (KKN). RHIC. Tc. - PowerPoint PPT PresentationTRANSCRIPT
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QCD 相転移における秩序変数揺らぎとクォークスペクトル
根本幸雄 ( 名古屋大 ) with北沢正清 ( 基研 )国広悌二 ( 基研 )小出知威 (Rio de Janeiro Federal U.)
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Phase Diagram of QCD
RHIC
TT
ETc
2Tc
chiral sym. broken (antiquark-quark condensate)confinement
chiral sym. restoreddeconfinement
quark-quark condensate
FAIR
compact stars
fluctuations of
fluctuations of
PRD65,091504,2002 (KKKN)
PRD70,056003,2004 (KKKN)
PTP.114,117,2005 (KKKN)
PLB631,157,2005 (KKN)
~170 MeVfrom Lattice QCD qq
qq PLB633,269,2006 (KKN)
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T
0
QGP from high T to low TQGP from high T to low TQGP from high T to low TQGP from high T to low T
strong coupling weak coupling
HTL approximation
Hadronic
QGP
1T GeV~
1(10?)T GeV
• Lattice QCD at finite T (current status)
quenched approximationfull QCD with heavy quark mass
• our approachmodel calculationmassless quark limit (chiral limit)
genuine phase transition dynamics
~~weak coupling
Mean field approx.
exact chiral symmetry
CSC from high CSC from high to low to low CSC from high CSC from high to low to low
CSC
HDL appoximation
Matsuura et al. 2004
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Quark spectrum aboveQuark spectrum above
T
CSC phase transitionCSC phase transition
fluctuations of qq
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2 25
5 2 5 2
( ) ( )
( )( )
S
CCC A A
L i G i
G i i
τ
NJL-like model (w/ diquark-correlation)(2-flavor,chiral limit)
: SU(2)F Pauli matrices: SU(3)C Gell-Mann matricesC :charge conjugation operator
A A
3( 250MeV) , 93MeVf so as to reproduce
25.01GeV
650MeV
/ 0.62
S
C S
G
G G
Parameters:
Klevansky(1992), T.M.Schwarz et al.(1999)
2SC is realized at low and near Tc.
Nambu-Jona-Lasinio modelNambu-Jona-Lasinio modelNambu-Jona-Lasinio modelNambu-Jona-Lasinio model
2nd order transition from Wigner-to-CSC, even in the finite current quark mass.
Wigner phase
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Description of fluctuations
Linear response theoryResponse of quark plasma to the perturbation caused byan external pair field: ),(ext xtqq
A pair field is induced in the neighborhood of the external field:
qqGxt C2),(ind
)','()','(''),( extind xtxxttDdxdtxt R Linear response
),( xtDR :Response function=Retarded Green function
( , ) F.T. ( ), (0) ( )RD p qq x qq t We use RPA: ),( kDR
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Collective ModesCollective mode is an elementary excitation of the system induced spontaneously.
),(),(),( extind kkDk R 0),(ext k
For the infinitesimally small external field, is non-zero if the denominator of is zero.
indRD
)(0),( 1 kkD
Dispersion relation of the collective mode
Spectral function: Strength of the response of the system to the external field.
In general, is complex.
),(Im1
),( kDkA R
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Spectrum of diquark-fluctuations
Dynamical Structure Factor
T =1.1Tc T =1.05Tc
for= 400 MeV
),(1
1),( kA
ekS
Peaks of the collective modes survive up to T=1.2 Tc. (cf. 1.005 Tc in Metal)Large fluctuations
)(,0 CTT soft modes
ReIm diffusion-like
Pole position in the complex plane
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( , )ni k
Quark self-energy (T-approximation)
Spectral Function of quark0 0( , ) ( , ) ( , )A p p p
quark
Spectrum of a single-quark
anti-quark
= 400 MeV=0.01 =(p)
[
MeV
]
k [MeV]
40
80
0
-40
-80400320 480
0
kF
kF
Normal Super
Disp. Rel.
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stronger diquark coupling GC
Stronger diquark couplingsStronger diquark couplingsStronger diquark couplingsStronger diquark couplings
GC ×1.3 ×1.5
= 400 MeV=0.01
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Resonant ScatteringResonant ScatteringResonant ScatteringResonant Scattering
GC=4.67GeV-2Mixing between quarks and holes
k
nf ()
kF
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Quark spectrum aboveQuark spectrum above
T
chiral phase transitionchiral phase transition
fluctuations of qq
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Recent topics near Tc
TT
ETc
2Tc
RHIC experimentsrobust collective flow
• good agreement with rel. hydro models• almost perfect fluid
(quenched) Lattice QCD
charmonium states up to 1.6-2.0 Tc(Asakawa et al., Datta et al., Matsufuru et al. 2004)
Strongly coupled plasma rather than weakly interacting gas
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Description of fluctuations
Linear response theoryResponse of quark plasma to the perturbation caused byan external pair field: ),(ext xtqq
A pair field is induced in the neighborhood of the external field:
qqGxt C2),(ind
)','()','(''),( extind xtxxttDdxdtxt R Linear response
),( xtDR :Response function=Retarded Green function
( , ) F.T. ( ), (0) ( )RD p qq x qq t We use RPA: ),( kDR
ind ( , ) 2 St x G qq
( , ) F.T. ( ), (0) ( )RD p qq x qq t
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Hatsuda, Kunihiro (’85)
sharp peak in time-like region
-mode
Spectral Function
k
2 2 ( )k m T
propagating mode
T = 1.1Tcm = 0
T
m
m softm
Tc
Spectrum of quark-antiquark fluctuations
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|p|
( , )ni k
Quark self-energy
Spectral Function0 0( , ) ( , ) ( , )A p p p
0,05.1 CTT
| | Re 0 p
quark
3 peaks in also 3 peaks in
|p|
Spectrum of a single-quark
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Resonant Scatterings of Quark for Resonant Scatterings of Quark for CHIRALCHIRAL Fluctuations Fluctuations
( , ) :p = + + …
E
E
0,08.1 CTT
dispersion law| | Re 0 p
0,05.1 CTT
Im
Re
Landau damping processes
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p [MeV]p
[MeV]
+(,k)-(,k)
Resonant Scatterings of Quark for Resonant Scatterings of Quark for CHIRALCHIRAL Fluctuations Fluctuations
E
E
“quark hole”: annihilation mode of a thermally excited quark
“antiquark hole”: annihilation mode of a thermally excited antiquark(Weldon, 1989)
lead to quark-”antiquark hole” mixing
( )m T
pp
pp
cf: hot QCD (HTL approximation)
(Klimov, 1981)
0,05.1 CTT
( )m T
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1.4 Tc1.2 Tc
1.1 Tc1.05 Tc
Spectral Contour and Dispersion RelationSpectral Contour and Dispersion Relation
p p
p p
p
p
p
p
+ (,k)
+ (,k)
+ (,k)
+ (,k)
-(,k)
-(,k)
-(,k)
-(,k)
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Soft modes vs. massive scalar boson
the collective (soft) modes above Tc
propagating mode
2 2 ( )k m T
The widths are smaller as CT T
The soft modes can be approximately replaced by anelementary massive scalar boson.
The interaction of a quark and the soft modes are expressedby that of a fermion (quark) and a massive scalar boson.
Yukawa model at finite T
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Fermion Spectrum in the Yukawa TheoryFermion Spectrum in the Yukawa TheoryFermion Spectrum in the Yukawa TheoryFermion Spectrum in the Yukawa Theory
quark + scalar boson ””
mq=0 m>0
cf.)mq>0 m=0
Baym, Blaizot, Svetitsky(’92)
( , )ni p
2 21( )
2L i i g m
One-loop Self-energy
Parameters: g, m, T
(on-shell renormalization for the T=0 part.)
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The fermion (quark) spectral function
g=1
T/m=0.8 T/m=1.2 T/m=1.6
0 2 2 2 2
Im1 Im( , )
2 ( Re ) (Im ) ( Re ) (Im )p
p p
( , )p ( , )p
w w wp p p
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Imaginary part of Imaginary part of Imaginary part of Imaginary part of
(a) (b)
Im
(,0
) g=1m=1T=2
0
{ ( )
( )
(
( )
( )
( ) )
( ) }
1
1( )
p k kp k
p p k k
p k k
p k k
k
p k
p k
k E
k
n f
n f
n f
n f
E
k E
k E
k
k
k
k
Parameters: g=1,m=1,T=2
for p=0
(a)
(b)
32
3
1Im ( , )
(2 ) 2 p
d ki g
E
p
k
Ek
E
(a)
(b)
Two Landau damping processes make two peak structure of Im.
Landau dampings:
2 2( )p kE p k m
energy of scalar boson
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Dispersion RelationDispersion RelationDispersion RelationDispersion Relation
Im
(,0
)
Parameters: g=1,m=1,T=2
Re (
,0)
There appear five dispersions for k=0.
p
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Three-peak structure in the quark spectrum also appears.
Two Landau damping processesform two peaks of the decay process.
Summary of quark spectrum in Yukawa modelSummary of quark spectrum in Yukawa modelSummary of quark spectrum in Yukawa modelSummary of quark spectrum in Yukawa model
From the analysis of the self-energy, we have found that
Yukawa NJL near Tc
Two resonant scatterings three peaks in the spectral function
E
w
0p massive bosonic mode
massless fermion
Im ( , 0)p
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Summary 1Summary 1Summary 1Summary 1
Around Tc of the CSC and chiral phase transitions,existence of large fluctuations of the order parameters.
They affect a single-quark spectrum
CSC: mixing between a quark and a hole at the Fermi surfaceChiral: mixing between a quark and an antiquark-hole,
mixing between a antiquark and a quark-hole,
CSC chiral
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Summary 2Summary 2Summary 2Summary 2
Similarity of the quark spectrum near chiral transition and the fermion spectrum in the Yukawa model.
interaction of a massless fermion and a massive boson at finite temperature
Fluctuations of qqare propagating modesmassive boson-like
chiral Yukawa
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Outlook• finite quark mass effect (WIP)
2nd order crossover
• explicit gluon degrees of freedom (WIP)
• effects of observables on the fluctuations
The next talk (Mitsutani)
with S.Yoshimoto and M.Harada.
based on the Schwinger-Dyson approach
• improvement of approximationself-consistent T-approximation
quark-antiquark loop (cf. Braaten, Pisarski, Yuan 1990)paraconductivity,
dilepton production through