on the lattice landau gauge quark...
TRANSCRIPT
![Page 1: On the lattice Landau gauge quark propagatorsites.ifi.unicamp.br/qcd-tnt4/files/2015/08/oliveira.pdf · On the lattice Landau gauge quark propagator orlando@fis.uc.pt University of](https://reader036.vdocument.in/reader036/viewer/2022071218/60527dadaae6d9548e51de11/html5/thumbnails/1.jpg)
On the lattice Landau gauge quark propagator
[email protected] University of Coimbra
A. Kizilersu M. Mueller-Preussker P. J. Silva J. Skullerud A. Sternbeck A. G. Williams
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Gluon Propagator in Linear Covariant Gauges
[email protected] University of Coimbra
P. Bicudo D. Binosi N. Cardoso P. J. Silva
arXiv:1505.05897
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On going effort to investigate the quark gluon vertex on the lattice
�↵� µ = h0| ↵ � Aµ|0i 12 form factors
quark propagator gluon propagator+
close to the chiral limit
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S(p) = Z(p2)�iak/+ aM(p2)
a2k2 +M2(p2)
quark wave function
running quark mass
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several quenched calculations
Dynamical lattice simulations
improved staggered actionP. O. Bowman et al, Nucl. Phys. Proc. Suppl. 119, 323 (2003) [hep-lat/0209129] P. O. Bowman et al, Phys. Rev. D71, 054507 (2005) [hep-lat/0501019]
2+1 flavors Bare quark masses:
sea 16, 32, 47, 63 Mev + 79 MeV
a = 0.125 fm 203x64
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Z(p2) suppressed in the IRM(p2) enhanced in the IR
chiral extrapolation
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S. Furui, H. Nakajima, Phys. Rev. D73, 074503 (2006) [hep-lat/0511045]
M(0) ⋍ 380 MeV (chiral extrapolation)
FLIC overlap quark action
W. Kamleh et al, Phys. Rev. D76, 094501 (2007) [arXiv:0705.4129]
Nsea = 2 flavors
β a(fm) mπ(MeV) 123x24 4.00 0.120 806 (1.44 fm)3x(2.88 fm) 163x32 4.20 0.096 820 (1.44 fm)3x(2.88 fm)
50 configurations
M(0) < 300 MeV (chiral extrapolation)
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CI action
M. Schrok, Phys. Lett. B711, 217 (2012) [arXiv:1112.5107]
Nsea = 2 flavors 125 configurations163x32 a = 0.144 fm mbare = 15.3(3) MeV
M(p2min) ⋍ 300 - 380 MeV
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Clover action(O(a) improved Sheikholeslami-Wohlert action)
J. I. Skullerud et al, Phys. Rev. D63, 054508 (2001) J. I. Skullerud et al, Phys. Rev. D64, 074508 (2001) Ph. Boucaud et al, Phys. Lett. B575, 256 (2003)
mbare ⋍ 50 MeV, 58 MeV, 102 MeV, 118 MeV β = 6.0, 6.2 and 6.0 — 6.8
(1.5 fm)3x(4.5 fm) (1.6 fm)3x(3.3 fm)
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X
f
X
x
(4 +m
f
) f
(x) (x)
� 1
2
X
f
X
x,µ
"
f
(x)(1� �
µ
)Uµ
(x) f
(x+ µ)
+
f
(x+ µ)(1 + �
µ
)U †µ
(x) f
(x)
#
� 1
2c
SW
X
f
X
x,µ⌫
f
(x)�µ⌫
F
µ⌫
(x) f
(x)
(x)(i@/+m) (x) + (x)@2 (x) + (x)�µ⌫Fµ⌫(x) (x)
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Nf = 2 β = 5.29 κ = 0.13632
a = 0.072 fm
mbare = 6.66 MeV
mπ = 296 MeV mN = 1078 MeV
525 Landau gauge configurations
O(a) nonperturbative improved action
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S(x, y) = h0| (x) (y) |0i
�! (1 + bqam)(1� cqaD/)
�! (1 + bqam)(1 + cqa �D/)
O(a) improvement of quark propagator
S(p) =X
x
e
�i p·xS(x, 0)
= Z(p2)�iak/+ aM(p2)
a2k2 + a2M2(p2)
akµ = sin(pµa)
tree level values cq = bq = 1/4
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akµ = sin(pµa)Z(p2)�iak/+ aM(p2)
a2k2 + a2M2(p2)
Z(p2) ⇡ 1� a2k2
16+O(a2)
aM(p2) ⇡ am
1� am
2+
a2m2
16
k2 + 4m2 � 3k4/m2
k2 +m2� a2k2
16
!
+O(a3)
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0 0.5 1 1.5 2 2.5 3ap
0
0.1
0.2
0.3
0.4
0.5
aM(p²)
Bare0 0.5 1 1.5 2 2.5 3
ap0.6
0.7
0.8
0.9
1
1.1
Z(p²)
Bare
Preliminary data
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H4 methodfundamental momenta invariants
p[2] =X
µ
p2µ, p[4] =X
µ
p4µ, p[6] =X
µ
p6µ, p[8] =X
µ
p8µ
Q(p[2], p[4], p[6], p[8]) = Q(p[2], 0, 0, 0) +@Q(p[2], 0, 0, 0)
@p[4]a2
p[4]
p2+ · · ·
continuum value
a2 corrections
a2 corrections:
p[4]
p2,
p[6]
(p2)2,
p[8]
(p2)3
problem: what about p2 corrections?
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tree level quark propagator
S�1(p) =iak/A(ap) +B(ap)
z(ap)
S�1(p) =iak/+ aML(ap)
ZL(ap)
Z(0)(ap) = z(ap)/A(ap)
aM(ap) =B(ap)
A(ap)= am+ a�M (0)(ap) = amZ(0)
m (ap)
Z(ap) =ZL(ap)
Z(0)(ap)aM(ap) = aML(ap)� a�M (0)(ap)
aM(ap) =aML(ap)
Z(0)m
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0 0.5 1 1.5 2 2.5 3ap
0
0.1
0.2
0.3
0.4
0.5
aM(p²)
BareTree Level SubTree Level Mult
0 0.5 1 1.5 2 2.5 3ap
0.6
0.7
0.8
0.9
1
1.1
Z(p²
)
BareTree Level
Preliminary data
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p = (1, 1, 1, 1)
Momentum Cutsp[4]
(p[2])2=
1
4
p[4]
(p[2])2< 0.3
0 0.5 1 1.5 2 2.5 3ap
0.6
0.7
0.8
0.9
1
1.1
Z(p²
)
Tree LevelCuts
Z(p2) = z0 +z1p2
+z2p4
z0 = 1.0555(2)
z1 = 0.189(1)
z2 = �0.133(2)
�2 = 1.6
p > 1(= 2.741 GeV)0 0.5 1 1.5 2 2.5 3ap
0.6
0.7
0.8
0.9
1
1.1
Z(p²)
Cuts
Preliminary data
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0 0.5 1 1.5 2 2.5 3ap
0
0.05
0.1
aM(p²)
Tree Level MultCuts
amq = (3.595 ± 0.014)x10-3
mq = 9.854 ± 0.038 MeV
a-1 = 2.741 GeV
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0 0.5 1 1.5 21
1.05
1.1
1.15
1.2
1 2 3 4 51
1.05
1.1
1.15
1.2
2 3 4 5 6 71
1.05
1.1
1.15
1.2
2 3 4 5 6 71.06
1.07
1.08
1.09
1.1
1.11
Z(p2) as function of p[4]
ap = 1.063 ap = 2.026
ap = 2.663 ap = 2.932
Preliminary data
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0 0.5 1 1.5 2 2.5 3ap
0.6
0.7
0.8
0.9
1
1.1
1.2
1.3Z(p²)
p6 Ext.
Z = 1.1480(40)
Preliminary data
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0 0.5 1 1.5 2 2.5 3ap
0.6
0.7
0.8
0.9
1
1.1
1.2
1.3Z(p²)
p8 Ext.
Z = 1.1491(43)
Preliminary data
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0 0.5 1 1.5 20
0.005
0.01
0.015
0.02
0.025
0.03
1 2 3 4 50.0020.0030.0040.0050.0060.0070.0080.009
2 3 4 5 6 70.003
0.004
0.005
0.006
0.007
0.008
2 3 4 5 6 70.003
0.004
0.005
0.006
0.007
aM(p2) as function of p[4]
ap = 1.063 ap = 2.026
ap = 2.663 ap = 2.932
Preliminary data
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0 0.5 1 1.5 2 2.5 3ap
0
0.05
0.1
aM(p²)
Preliminary data
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Summary and outlook• don’t forget that it is a preliminary analysis • closer to the chiral limit • DCSB with a M(0)⋍ 322.1 ± 5.2 MeV • finite size effects for Z(p2) under control • need to be understood better for M(p2) • check other m and lattice spacing
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0 0.5 1 1.5 2 2.5 3pa
0
0.5
1
1.5
2
2.5
3
3.5
4
λ 1(p²,0,p²)
UncorrectedCorrected
zero gluon momentum
γμ
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Gluon Propagator in Linear Covariant Gauges
[email protected] University of Coimbra
P. Bicudo D. Binosi N. Cardoso P. J. Silva
arXiv:1505.05897
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Landau gauge
0 0.5 1 1.5 2 2.5 3p [GeV]
0
1
2
3
4
5
6
7
8
9
10
11
D(p
) [G
eV-2
]
β = 6.3 - 1284 - L = 8.020 fmβ = 6.0 - 804 - L = 8.128 fmβ = 5.7 - 444 - L = 8.087 fm
Renormalized Gluon Propagator - µ = 4 GeV
effective gluon mass
M(p2) =m4
0
m20 + p2
O. Oliveira, P. Bicudo, J Phys G38, 045003 (2011)
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0 0.5 1 1.5 2 2.5 3 3.5 4p [GeV]
0.91.01.11.21.31.41.51.61.71.81.92.02.12.22.32.42.52.62.72.82.93.0
p2 G(p²)
β = 6.3 - 1284 - 8.020 fmβ = 6.0 - 804 - 8.128 fm
Renormalized Ghost Dressing Function - µ = 4 GeV
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Renormalizable Rξ gauges
F [g] =X
x,µ
Re Tr
g(x)U
µ
(x)g†(x+ µ)
�+X
x
Re Tr
ig(x)⇤(x)
�
๏Two integrations: links and gaussian distributed matrices Λ
P [⇤
a(x)] / exp
(�1
2⇠
X
a
(⇤
a(x))
2
)
A. Cucchieri, T. Mendes, and E. M. Santos, Phys. Rev. Lett. 103, 141602 (2009)
๏non trivial minimization problem
@A(x) = ⇤(x) Uµ(x) = exp iag0Aµ(x+ µ/2)
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g = ⇧i�gi �gi = 1 + i
X
j
!
a(x)ta
choosen to minimize F[g]
�(x) =X
µ
g0rAµ(x)� ⇤(x)
✓ =1
NL
4
X
x
Tr⇥⇤(x)⇤†(x)
⇤< 10�15
Dµ⌫(p2) =
✓�µ⌫ � pµp⌫
p2
◆DT (p
2) +pµp⌫p2
DL(p2)
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• Wilson action (50 configurations) • 324 β = 6.0 a = 0.1016(25) fm • 50 Λ configurations for each Uμ • FFT steepest descent + overrelaxation + stochastic overrelation + restart after random gauge transformation
• ξ = 0.1, 0.2, 0.3, 0.4, 0.5 • data renormalised at μ = 4.317 GeV
Lattice Setup + Gauge Fixing
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ξ = 0.103(2), 0.203(2), 0.302(3), 0.402(3), 0.502(3)
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.1 1 10 100
ξ=0.1ξ=0.2ξ=0.3ξ=0.4ξ=0.5
0
0.5
1
1.5
2
2.5
0.01 0.1 1 10 100
Landauξ=0.1ξ=0.2ξ=0.3ξ=0.4ξ=0.5
q2 [GeV2] q2 [GeV2]
q2∆
L(q
2)
q2∆
T(q
2)
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Some differences with M. Q. Huber, Phys.Rev. D91, 085018 (2015)
Nice agreement A. Aguilar, D. Binosi, and J. Papavassiliou,
Phys. Rev. D91, 085014 (2015)
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M2(p2) =
"a(⇠) + c(⇠)
✓p2
µ2
◆⇠log
p2
µ2
#M2
⇠=0(p2)
a(⇠) = 1 + a1⇠
c(⇠) = cNI⇠ cNI ⇡ 0.32
a1 ⇡ 0.26 fit mass at p2 = 0
0
0.02
0.04
0.06
0.08
0.1
0.001 0.01 0.1 1 10
ξ=0.1ξ=0.2ξ=0.3ξ=0.4ξ=0.5
q2 [GeV2]
m2(q
2)[G
eV2]
![Page 38: On the lattice Landau gauge quark propagatorsites.ifi.unicamp.br/qcd-tnt4/files/2015/08/oliveira.pdf · On the lattice Landau gauge quark propagator orlando@fis.uc.pt University of](https://reader036.vdocument.in/reader036/viewer/2022071218/60527dadaae6d9548e51de11/html5/thumbnails/38.jpg)
Summary and Outlook• Gauge fixing is the most intensive numerical part of the calculation
• The gluon propagators in Rξ gauges for a lattice volume large enough to access the IR
• Data shows an inflection point (few hundreds MeV) and a saturation in the IR
• Suggests that a dynamical gluon mass generation is a common feature of all Rξ gauges