We study the lattice QCDΛ_(c)N phase shifts for the^(3)S_(1)-^(3)D_(1)coupled channel using both the leading order covariant chiral effective theory and the next-to-leading order non-relativistic chiral effective fie...We study the lattice QCDΛ_(c)N phase shifts for the^(3)S_(1)-^(3)D_(1)coupled channel using both the leading order covariant chiral effective theory and the next-to-leading order non-relativistic chiral effective field theory(ChEFT).We show that although it is possible to describe simultaneously the^(3)S_(1)and^(3)D_(1)phase shifts and the inelasticityη_(1),the fitted energy range is quite small,only up to E_(c.m.)=5 MeV.This raises concerns regarding the consistency between leading/next-to-leading order ChEFT and the lattice QCD simulations.展开更多
Chiral effective field theory describes the interaction of nucleons and pions in the low-energy regime of QCD.This theory offers a consistent picture of nuclear forces and nuclear current operators.We study the electr...Chiral effective field theory describes the interaction of nucleons and pions in the low-energy regime of QCD.This theory offers a consistent picture of nuclear forces and nuclear current operators.We study the electromagnetic processes based on ChEFT dynamical picture and compare our predictions to results obtained in the conventional framework.In particular,we consider low energy photo-disintegration of the deuteron at different orders of the chiral expansion.We investigate a role of different ingredients in the two-nucleon current operator.For the first time calculations involve consistent contributions from long-range two-pion exchange currents which appear at next-to-leading order of the chiral expansion.We present novel results for cross sections and various polarization observables.展开更多
基金partly supported by the National Natural Science Foundation of China(NSFC)under Grants No.11975041,No.11735003,and No.11961141004Yang Xiao acknowledges the support from China Scholarship Council
文摘We study the lattice QCDΛ_(c)N phase shifts for the^(3)S_(1)-^(3)D_(1)coupled channel using both the leading order covariant chiral effective theory and the next-to-leading order non-relativistic chiral effective field theory(ChEFT).We show that although it is possible to describe simultaneously the^(3)S_(1)and^(3)D_(1)phase shifts and the inelasticityη_(1),the fitted energy range is quite small,only up to E_(c.m.)=5 MeV.This raises concerns regarding the consistency between leading/next-to-leading order ChEFT and the lattice QCD simulations.
基金Supported by the Polish Ministry of Science and Higher Education (N N202 104536)
文摘Chiral effective field theory describes the interaction of nucleons and pions in the low-energy regime of QCD.This theory offers a consistent picture of nuclear forces and nuclear current operators.We study the electromagnetic processes based on ChEFT dynamical picture and compare our predictions to results obtained in the conventional framework.In particular,we consider low energy photo-disintegration of the deuteron at different orders of the chiral expansion.We investigate a role of different ingredients in the two-nucleon current operator.For the first time calculations involve consistent contributions from long-range two-pion exchange currents which appear at next-to-leading order of the chiral expansion.We present novel results for cross sections and various polarization observables.
