Precision control in lattice calculation of x-dependent pion distribution amplitude

[1]  X. Ji,et al.  Leading power accuracy in lattice calculations of parton distributions , 2023, Physics Letters B.

[2]  Ji Xu,et al.  Matching the B -meson quasidistribution amplitude in the RI/MOM scheme , 2022, Physical Review D.

[3]  X. Ji Large-Momentum Effective Theory vs. Short-Distance Operator Expansion: Contrast and Complementarity , 2022, 2209.09332.

[4]  X. Ji,et al.  Resumming quark's longitudinal momentum logarithms in LaMET expansion of lattice PDFs , 2022, Nuclear Physics B.

[5]  P. Petreczky,et al.  Pion distribution amplitude at the physical point using the leading-twist expansion of the quasi-distribution-amplitude matrix element , 2022, Physical Review D.

[6]  X. Ji,et al.  Pion and Kaon Distribution Amplitudes from Lattice QCD. , 2022, Physical review letters.

[7]  P. Petreczky,et al.  Lattice QCD Determination of the Bjorken-x Dependence of Parton Distribution Functions at Next-to-Next-to-Leading Order. , 2021, Physical review letters.

[8]  W. Detmold,et al.  Parton physics from a heavy-quark operator product expansion: Lattice QCD calculation of the second moment of the pion distribution amplitude , 2021, Physical Review D.

[9]  T. Huber,et al.  Next-to-Next-to-Leading-Order QCD Prediction for the Photon-Pion Form Factor. , 2021, Physical review letters.

[10]  X. Ji,et al.  Self-renormalization of quasi-light-front correlators on the lattice , 2021, 2103.02965.

[11]  A. Schafer,et al.  RI/MOM renormalization of the quasi-PDF in lattice regularization , 2020, 2012.05448.

[12]  Wei Wang,et al.  Distribution Amplitudes of K^{*} and ϕ at the Physical Pion Mass from Lattice QCD. , 2020, Physical review letters.

[13]  X. Ji,et al.  A hybrid renormalization scheme for quasi light-front correlations in large-momentum effective theory , 2020, Nuclear Physics B.

[14]  Rui Zhang,et al.  Pion and kaon distribution amplitudes in the continuum limit , 2020, Physical Review D.

[15]  X. Ji,et al.  Large-momentum effective theory , 2020, Reviews of Modern Physics.

[16]  R. Sarpong,et al.  Bio-inspired synthesis of xishacorenes A, B, and C, and a new congener from fuscol† †Electronic supplementary information (ESI) available. See DOI: 10.1039/c9sc02572c , 2019, Chemical science.

[17]  P. Korcyl,et al.  Light-cone distribution amplitudes of pseudoscalar mesons from lattice QCD , 2019, Journal of High Energy Physics.

[18]  J.H.Zhang,et al.  Power corrections and renormalons in parton quasidistributions , 2018, Physical Review D.

[19]  T. Aushev,et al.  The Belle II Physics Book , 2018, Progress of Theoretical and Experimental Physics.

[20]  P. Korcyl,et al.  Pion distribution amplitude from Euclidean correlation functions: Exploring universality and higher-twist effects , 2018, Physical Review D.

[21]  X. Ji,et al.  Factorization theorem relating Euclidean and light-cone parton distributions , 2018, Physical Review D.

[22]  Rui Zhang,et al.  Kaon distribution amplitude from lattice QCD and the flavor SU(3) symmetry , 2017, Nuclear Physics B.

[23]  A. Radyushkin,et al.  Quark pseudodistributions at short distances , 2017, Physics Letters B.

[24]  I. Stewart,et al.  Matching the quasiparton distribution in a momentum subtraction scheme , 2017, 1709.04933.

[25]  J. Qiu,et al.  Renormalizability of quasiparton distribution functions , 2017, 1707.03107.

[26]  X. Ji,et al.  Renormalization in Large Momentum Effective Theory of Parton Physics. , 2017, Physical review letters.

[27]  K. Orginos,et al.  Lattice QCD exploration of parton pseudo-distribution functions , 2017 .

[28]  P. Korcyl,et al.  Second moment of the pion distribution amplitude with the momentum smearing technique , 2017, 1705.10236.

[29]  A. Radyushkin Quasi-parton distribution functions, momentum distributions, and pseudo-parton distribution functions , 2017 .

[30]  X. Ji,et al.  Improved quasi parton distribution through Wilson line renormalization , 2016, 1609.08102.

[31]  K. Tsushima,et al.  Parton Distribution in Pseudoscalar Mesons with a Light-Front Constituent Quark Model , 2015, 1512.07260.

[32]  V. Braun,et al.  Second Moment of the Pion Light-cone Distribution Amplitude from Lattice QCD , 2015, 1503.03656.

[33]  X. Ji Parton physics from large-momentum effective field theory , 2014, 1404.6680.

[34]  X. Ji,et al.  Pion Distribution Amplitude from Lattice QCD , 2013, 1702.00008.

[35]  M. Dubrovin Measurement of the Gamma Gamma* to Pi0 Transition Form Factor , 2013 .

[36]  X. Ji Parton physics on a Euclidean lattice. , 2013, Physical review letters.

[37]  A. Pineda,et al.  Perturbative expansion of the energy of static sources at large orders in four-dimensional SU(3) gauge theory , 2013, 1303.3279.

[38]  J. J. Cobos-Martínez,et al.  Imaging dynamical chiral-symmetry breaking: pion wave function on the light front. , 2013, Physical review letters.

[39]  C. DeTar,et al.  Lattice QCD ensembles with four flavors of highly improved staggered quarks , 2012, 1212.4768.

[40]  S. Uehara Measurement of γγ* → π0 transition form factor at Belle , 2012 .

[41]  Jae Hyun Kim,et al.  Measurement of γγ *→π0 transition form factor at Belle , 2012, 1205.3249.

[42]  P. Boyle,et al.  Lattice results for low moments of light meson distribution amplitudes , 2010, 1011.5906.

[43]  K. Assamagan,et al.  Charged pion form factor between Q2=0.60 and 2.45 GeV2. II. Determination of, and results for, the pion form factor , 2008, 0809.3052.

[44]  V. Braun,et al.  Exclusive processes in position space and the pion distribution amplitude , 2007, 0709.1348.

[45]  D. Pleiter,et al.  Moments of pseudoscalar meson distribution amplitudes from the lattice , 2006, hep-lat/0606012.

[46]  B. Joó,et al.  The Chroma Software System for Lattice QCD , 2004, hep-lat/0409003.

[47]  L. Debbio,et al.  The second moment of the pion light cone wave function , 2002, hep-lat/0211037.

[48]  A. Pineda The static potential: lattice versus perturbation theory in a renormalon-based approach , 2002, hep-ph/0208031.

[49]  A. Pineda Determination of the bottom quark mass from the $\Upsilon(1S)$ system , 2001, hep-ph/0105008.

[50]  M. Beneke,et al.  QCD Factorization in B -> pi K, pi pi decays and extraction of Wolfenstein parameters , 2001, hep-ph/0104110.

[51]  M. Beneke,et al.  QCD factorization for B ---> pi pi decays: Strong phases and CP violation in the heavy quark limit , 1999, hep-ph/9905312.

[52]  M. Beneke Renormalons , 1998, hep-ph/9807443.

[53]  B. Melić,et al.  Complete next-to-leading order perturbative QCD prediction for the pion electromagnetic form factor , 1998, hep-ph/9802204.

[54]  C. collaboration,et al.  Measurements of the meson-photon transition form factors of light pseudoscalar mesons at large momentum transfer , 1997, Physical Review D.

[55]  G. Sterman,et al.  The perturbative pion form factor with Sudakov suppression , 1992 .

[56]  M. Feindt,et al.  A measurement of the π0, η and η′ electromagnetic form factors , 1990 .

[57]  C. H. Smith,et al.  The applicability of perturbative QCD to exclusive processes , 1989 .

[58]  Photiadis,et al.  Phenomenology on the lattice: Composite operators in lattice gauge theory. , 1985, Physical review. D, Particles and fields.

[59]  P. Mackenzie,et al.  On the Elimination of Scale Ambiguities in Perturbative Quantum Chromodynamics , 1983 .

[60]  S. Brodsky,et al.  Exclusive Processes in Perturbative Quantum Chromodynamics , 1980 .

[61]  A. Efremov,et al.  Factorization and asymptotic behaviour of pion form factor in QCD , 1980 .

[62]  A. Efremov,et al.  Asymptotic behavior of the pion form factor in quantum chromodynamics , 1980 .

[63]  S. Brodsky,et al.  Exclusive processes in quantum chromodynamics: Evolution equations for hadronic wavefunctions and the form factors of mesons , 1979 .

[64]  Fry,et al.  Measurement of the gamma gamma* -> eta c transition form factor RID C-5223-2009 , 2009 .