10/08/2008ky ccs seminar strangeness and glue in the nucleon from lattice qcd takumi doi (univ. of...
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![Page 1: 10/08/2008KY CCS seminar Strangeness and glue in the nucleon from lattice QCD Takumi Doi (Univ. of Kentucky) In collaboration with Univ. of Kentucky: M](https://reader037.vdocuments.site/reader037/viewer/2022110206/56649cf85503460f949c97f9/html5/thumbnails/1.jpg)
10/08/2008 KY CCS seminar
Strangeness and glue in the nStrangeness and glue in the nucleon from lattice QCDucleon from lattice QCD
Takumi Doi(Univ. of Kentucky)
In collaboration withUniv. of Kentucky:M. Deka, S.-J. Dong, T. Draper, K.-F. Liu, D. MankameTata Inst. of Fundamental Research:N. MathurUniv. of Regensburg:T. Streuer
QCD Collaboration
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10/08/2008 KY CCS seminar
Introduction
Nucleon structure Fundamental particle as only stable baryons:
the structure is crucial to understand not only nucleons themselves but also to understand the QCD
Electric/Magnetic structure
GE: electric form factor GM: magnetic form factor
electron
1950s
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10/08/2008 KY CCS seminar
Introduction
Nucleon structure Fundamental particle as only stable baryons:
the structure is crucial to understand not only nucleons themselves but also to understand the QCD
Deep Inelastic Scattering (DIS)
W1 F1 structure function W2 F2 structure function Weak Q2 dependence & 2xF1=F2 Parton model
electron
1960s
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10/08/2008 KY CCS seminar
Introduction
Nucleon structure Parton model
P
xP
Parton carry (xP) momentum
Q2 evolution QCD interaction
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10/08/2008 KY CCS seminar
Introduction Nucleon structure
Yet, whole understanding of its structure has not been obtained
Q2-dependence QCD pert. calc., but x-dependence ??
Spin “crisis” The EMC experiments (1989) quark spin is only 30% Orbital angular momentum and/or gluon must carry the rest
Exciting results are coming from experiments RHIC, JLAB, DESY, … Inputs from theoretical prediction are necessary for
some quantities: e.g., strangeness <x2>
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Introduction The ingredients: valence/sea quark and gluon
Quark “connected” insertion diagrams Quark“disconnected insertion” diagrams Glue what is suitable “glue” operator ?
Glue terms Glue in <x> Glue contribution to nucleon spin necessary to complete (angular) momentum su
m rules
Tough calculation in lattice
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Outline Lattice QCD and our methodology Energy-momentum tensor
<x> and spin <x> from disconnected insertion <x> from glue
Glue operator from overlap operator Strangeness magnetic/electric form
factor Outlook
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Non-perturbative fluctuations are included via Path-Integral
Monte Carlo calculation(Weighted sum is taken)
1
2
3
tim
e
space
det=1: quenched
det≠1: full QCD
Lattice QCD
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Lattice QCD Various fermion formulations
Wilson fermion, clover fermion Calculation cost is cheap Chiral symmetry broken explicitly
Staggered fermion Calculation cost is cheaper Part of Chiral symmetry respected Flavor cannot identified, Rooting problem
Domain Wall / Overlap fermion Calculation cost is expensive Good Chiral symmetry
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10/08/2008 KY CCS seminar
Lattice QCD Various fermion formulations
Wilson fermion, clover fermion Calculation cost is cheap Chiral symmetry broken explicitly
Staggered fermion Calculation cost is cheap Part of Chiral symmetry respected Flavor cannot identified, Rooting problem
Domain Wall / Overlap fermion Calculation cost is expensive Good Chiral symmetry
Symmetry and (spontaneous) broken symmetry
Nobel Prize 2008
Nambu Maskawa-Kobayashi
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Methodology
Matrix elements
Requires 4pt function calc.
Operator Product Expansion (OPE) 3pt calc.
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Disconnected Insertion (DI)
Why are DI diagrams important ? Strangeness in nucleon Strangeness electric/magnetic form factor Structure function, <x>, <x2> Quark spin and angular momentum in nuleon Pion-Nucleon-Sigma term
Now is the full QCD Era: dynamical sea quark ! Challenging subject
All-to-all propagator is necessary Straightforward calculation impossible
O(105) inversion for O(106)XO(106) matrix
Rich Physics !
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Stochastic Method for DI Use Z(4) (or Z(2)) noises such that
DI loop can be calculated as
Introduce new source for noises (“off-diagonal” part) Unbiased subtraction using hopping parameter expansion
(HPE)
Off-diagonal contaminations are estimated by HPE and subtracted (in unbiased way)
Disconnected Insertion (DI)
S.-J.Dong, K.-F.Liu, PLB328(1994)130
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Analysis for <x> (D.I.)
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Methodology The energy momentum tensor can be decomposed int
o quark part and gluon part gauge invariantly
Nucleon matrix elements can be decomposed as
(angular) momentum sum rules (reduce renormalization consts.)
X.Ji (1997)
Orbital part
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Methodology <x> can be obtained by
q
pp’=p-qt1
t2t0
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10/08/2008 KY CCS seminar
Methodology We take the ratio of 3pt to 2pt
q
pp’=p-q t1
t2t0
To improve S/N, we take a sum over t1=[t0+1, t2-1]
Slope wrt. t2 (sink time) corresponds to the signal
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Methodology Spin components can be obtained by
q
pp’=p-q
N.B. we use one more equation to extract T1 and T2 separately(q^2 dependence could be different)
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10/08/2008 KY CCS seminar
Analysis (1) Nf=2+1 dynamical clover fermion + RG impro
ved gauge configs (CP-PACS/JLQCD) About 800 configs Beta=1.83, (a^-1=1.62GeV, a=0.12fm) 16^3 X 32 lattice, L=2fm Kappa(ud)=0.13825, 0.13800, 0.13760
M(pi)= 610 – 840 MeV Kappa(s)=0.13760 (Figures are for kappa(ud)=0.13760)
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Analysis (2)
Wilson Fermion + Wilson gauge Action 500 configs with quenched approximation Beta=6.0, (a^-1=1.74GeV, a=0.11fm) 16^3 X 24 lattice, L=1.76fm kappa=0.154, 0.155, 0.1555
M(pi)=480-650 MeV Kappa(s)=0.154 , kappa(critical)=0.1568 (Figures are for kappa=0.154)
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D.I. calculation
D.I. diagrams are estimated Z(4) noise (color, spin, space-time) method #noise = 300 (full), 500 (quenched) (To
reduce the possible autocorrelation, we take different noise for different configurations)
We also take many nucleon sources (full: #src=64/32 (lightest mass/others), quenched: #src=16 ) We found that this is very effective (autocorrelation between different sources is small) CH, H and parity symmetry:
(3pt)=(2pt) X (loop)(3pt) = Im(2pt) X Re(loop) + Re(2pt) X Im(loop)
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Results for <x>(s)
Linear slope corresponds to signal
#src = 1
Nf=2+1
Somewhat large errors
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Many nucleon sources
Further improvement
q
pp’=p-q
S/N improve by √Nnoise
S/N improve by √Nsrc
N.B. The calculations of loop part and 2pt part are independent !
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Results for <x>(s)
Linear slope corresponds to signalBy increasing the nucleon sources #src = 1 32, the signal becomes prominent
Nf=2+1
Error bar reduced more than factor 5 !
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Chiral Extrapolation
Note: The values are not renormalized
<x>(ud) [D.I.] <x>(s)
Nf=2+1
We expect we can furhter reduce the error by subtraction technique using clover-fermion HPE
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Ratio of <x>(s) and <x>(ud)[D.I.]
<x>(s) / <x>(ud)[D.I.] =0.857(40)
Note: The values are not renormalized
Preliminary
<x>(s) / <x>(ud)[D.I.] =0.88(7)
Nf=2+1
c.f. Quenched
M. Deka
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Glue calculation Gluon Operator
Glue operator constructed from link variables are known to be very noise
Smearing ? (Meyer-Negele. PRD77(2008)037501, glue in pion)
Field tensor constructed from overlap operator
Ultraviolet fluctuation is expected to be suppressed In order to estimate D_ov(x,x), Z(4) noise method is us
ed, where color/spin are exactly diluted, space-time are factor 2 dilution + even/odd dilution, #noise=2
K.-F.Liu, A.Alexandru, I.Horvath PLB659(2008)773
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Results for <x>(g) (quenched)
Linear slope corresponds to signal
First time to obtain the signal of glue in nucleon !
c.f. M.Gockeler et al., Nucl.Phys.Proc.supp..53(1997)324
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Strangeness form factor
Very poor information available even today Experiments
Even the sign of GM(Q2=0) unknown Only few direct lattice QCD
Dong-Liu, PRD58(1998)074504
Mathur-Dong, NP.Proc.Suppl.94(2001)311
Lewis-Wilcox-Woloshyn, PRD67(2003)013003
arXiv:0805.2889 [hep-ex]
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Strangeness form factor: Latt Operator
Point-split operator conserved, no RG factor
Electric/Magnetic form factorElectric
Magnetic
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Strangeness magnetic moment
Linear slope corresponds to signal
#src = 32
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Strangeness magnetic moment
Q^2 dependence
#src = 32
At each Q^2, s.m.m. is basically consistent with zero
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Strangeness magnetic moment
Q^2 dependence
#src = 64
At each Q^2, s.m.m. is basically consistent with zero
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Strangeness magnetic moment
Chiral Extraplation
s.m.m. is basically consistent with zero
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Strangeness magnetic moment
Improvement ? Dilution in color/spin in stochastic method
did not work : probably because current is point-splitted Dilution in even/odd
Does work, but unbiased subtraction w/ HPE compensate Unbiased subtraction w/ HPE not w/ Wilson-type but
w/ clover-type Does work, but not so much
Deflation for the next overlap/domain-wall calc.
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Summary/Outlook We have studied the <x> from strangeness,
u, d (disconnected insertion[D.I.]) and glue Nf=2+1 clover fermion and quenched for <x>(q) <x>(s) is as large as <x>(ud) [D.I.]
Renormalization is necessary for quantitative results Glue <x> has been studied using overlap operator
We have obtained a promising signal ! Strangeness magnetic/electric form factor
Outlook Angular momentum is being studied origin of nuc spin Various quantities of D.I., pi-N-sigma term, etc.
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Renormalization
We have two operators: T4i(q), T4i(G) It is known that the RG can be parametrized
as
Two unknown parameters can be determined by two sum rules
Momentum sum rule: Spin sum rule:
X.Ji, PRD52 (1995) 271