Complete flavor decomposition of the spin and momentum fraction of the proton using lattice QCD simulations at physical pion mass

We evaluate the gluon and quark contributions to the spin of the proton using an ensemble of gauge configuration generated at physical pion mass. We compute all valence and sea quark contributions to high accuracy. We perform a non-perturbative renormalization for both quark and gluon matrix element...

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Bibliographic Details
Published in:arXiv.org 2020-03
Main Authors: Alexandrou, C, Bacchio, S, Constantinou, M, Finkenrath, J, Hadjiyiannakou, K, Jansen, K, Koutsou, G, Panagopoulos, H, Spanoudes, G
Format: Article
Language:English
Subjects:
Charm (particle physics)
Computer simulation
Flavor (particle physics)
Gluons
Momentum
Pions
Protons
Quantum chromodynamics
Quarks
Sum rules
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Summary:We evaluate the gluon and quark contributions to the spin of the proton using an ensemble of gauge configuration generated at physical pion mass. We compute all valence and sea quark contributions to high accuracy. We perform a non-perturbative renormalization for both quark and gluon matrix elements. We find that the contribution of the up, down, strange and charm quarks to the proton intrinsic spin is \(\frac{1}{2}\sum_{q=u,d,s,c}\Delta\Sigma^{q^+}=0.191(15)\) and to the total spin \(\sum_{q=u,d,s,c}J^{q^+}=0.285(45)\). The gluon contribution to the spin is \(J^g=0.187(46)\) yielding \(J=J^q+J^g=0.473(71)\) confirming the spin sum. The momentum fraction carried by quarks in the proton is found to be \(0.618(60)\) and by gluons \(0.427(92)\), the sum of which gives \(1.045(118)\) confirming the momentum sum rule. All scale and scheme dependent quantities are given in the \(\mathrm{ \overline{MS}}\) scheme at 2 GeV.
ISSN:2331-8422
DOI:10.48550/arxiv.2003.08486