plasmino in graphene at finite temperature? daqing liu changzhou university, china
TRANSCRIPT
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plasmino in graphene at finite temperature?
Daqing Liu
Changzhou University, China
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Outline
Collective Excitations in hot QCD Possible collective excitations in warm grap
hene Outlook
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In QCD, about T>150Mev, there is a first phase transition (QCDPT). i.e.,
< 0;Tj¹q(x)q(0)j;0;T >=
(0; in quark gluon plasma phaseT > Tc
¡ (:23Gev)3: in hadron phaseT < Tc
L.S. Kisslinger and D. Das, arXiv:1411.3680
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Two ways to get so high temperature
Early universe
Latent heat.
heavy ion collision, RHIC and LHC
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q
k
k q
qPlasmon
In QGP, there are two collective excitations
q q p q
pPlasmino
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Some literatures on plasmino
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arXiv:1208.6386
arXiv:1109.0088
arXiv:hep-ph/0509339
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Possilbe collective excitations in graphene
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Possible collective excitations in warm graphene
Plasmon
1) F.H.L. Koppens, D.E. Chang and F.J.G. de Abajo, Graphene plasmonics: A platform for stron Light-matter interactions, Nano Lett. 11, 3370 (2011)
2) S.D. Sarma and E.H. Hwang, Collective modes of the massless Dirac plasma, Phys.Rev.Lett. 102, 206412 (2009)
3) Y. Liu, R.F. Willis, K.V. Emtsev and T. Seyller, Plasmon dispersion and damping in electrically isolated two-dimesenional charge sheets, Phs. Rev. B78 201403(R) (2008)
4) S.D. Sarma and Q. Li, Intrinsic plasmon in 2D Dirac materials, Phys. Rev. B. 87, 235418 (2013)
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Propagators
Fermion
where
Potential
iSF (p0;p) = (p0+®¢p)[ ip02¡ p2 ¡ 2¼f+(p)±(p
02 ¡ p2)]
S0F¡ 1 =p0 ¡ ®¢p
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Feynman diagram for carrier self-energy correction
q q p q
p
We also focus on the case q¿ q0;
As for the correction from temperature, there are two cases,
High temperature, Debye screening
Low temperature (The influence of T on V is neglected)
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Phys. Rev. B 85, 085420 (2012)
Phys.Lett. B359 (1995) 148-154
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§ = 18¼2Rd2pf+(p0)
(1-®¢p0=p0)V(q0+p0;p) ¡ (1+®¢p0=p0)V(q0 ¡ p0;p)
This is the main challenge of the topic. We set
To calculate the correction we introduce invariants
We have
and the domain of the integration
and
u= p;v= p0
px =q2+u2¡ v2
2q py = §p((q+u)2¡ v2)(v2¡ (q¡ u)2)
2q
,
dpxdpy = 4uvp((q+v)2¡ u2)(u2¡ (q¡ v)2)
q = (q;0)
v 2 (0;q);u 2 (q¡ v;q+v) v 2 (q;1 );u 2 (v ¡ q;v+q)
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The scalar part, which is an odd function of ,q0
The self-energy correction can be divided into two parts,
a= ®scT 3¼q02 [i¼
3³(3)2jq0j +
2cqq02 (
7¼4T40q +3³(3))]
The spinor part, which is an even function of ,q0
¡ b®¢q
b= ®s¼[0:5
Tq ¡ 0:06
T 2q2 +
c2q2
q02 (0:35Tq +0:9
T 3q3 )]
aq0
c= ¼®sgs8
?
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In RPA, the full carrier propagator is
S(0)¡ 1F =q0 ¡ ®¢q
S¡ 1F (q0;q) = (1¡ a)q0 ¡ (1¡ b)®¢q
The zero point is at
q02= (b¡ 1a¡ 1
)2q2 (1)
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T=0.3
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To simplify the discussion, we assume ®s =2:1; c=¼®sgs8
We have two solutions
T=0.5
q02 =4:T +0:1q+0:02q2
Tq01 =3:78T +0:43q¡ 0:02
q2
T
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T=0.3. The fit curve is
3:78T +0:43q¡ 0:02q2
T+
T2
0:31T +91q
The difference between with 0.06 term and wothout 0.06 term
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Outlook
Graphene: The TRUE bridge between high- and low-energy physics
The (anti-)plasmino states in graphene can help us to understand (anti-)plasmino in QGP and hot QCD.
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Thanks for your attention