[1] GEGELIA J, JAPARIDZE G. Matching the heavy particle approach to relativistic theory[J]. Physics Review D, 1999, 60:114038. [2] PAGELS H. Departures from chiral symmetry[J]. Physica Reports, 1975, 16(5):219-311. DOI:10.1016/0370-1573(75)90039-3. [3] WEINBERG S. Phenomenological lagrangians[J]. Physica A:Statistical Mechanics and its Applications, 1979, 96:327-340. DOI:10.1016/0378-4371(79)90223-1. [4] GASSER J, LEUTWYLER H. Chiral perturbation theory to one loop[J]. Annals of Physics, 1984, 158(1):142-210. DOI:10.1016/0003-4916(84)90242-2. [5] BERNARD V, KAISER N, KAMBOR J, et al. Chiral structure of the nucleon[J]. Nuclear Physics B, 1992, 388(2):315-345. DOI:10.1016/0550-3213(92)90615-I. [6] JENKINS E, MANOHAR A V. Baryon chiral perturbation theory using a heavy fermion lagrangian[J]. Physics Letters B, 1991, 255(4):558-562. DOI:10.1016/0370-2693(91)90266-S. [7] ELLIS P J, TANG H B. Pion-nucleon scattering in a new approach to chiral perturbation theory[J]. Physics Review C, 1998, 57(6):3356-3375. [8] BECHER T, LEUTWYLER H. Baryon chiral perturbation theory in manifestly Lorentz invariant form[J]. The European Physical Journal C, 1999, 9(4):643. DOI:10.1007/PL00021673. [9] BRUNS P C, MEIßNER U G. Infrared regularization for spin-1 fields[J]. The European Physical Journal C, 2005, 40(1):97-119. DOI:10.1140/epjc/s2005-02118-0. [10] 温莉宏. 强子结构的协变手征有效理论分析[D]. 上海:华东师范大学, 2017. [11] YANG J F. Anomalous "mapping" between pionfull and pionless EFT's[J]. Modern Physics Letters A, 2014, 29:1450043. [12] ECKER G, GASSER J, LEUTWYLER H, et al. The role of resonances in chiral perturbation theory[J]. Nuclear Physics B, 1989, 321(2):311-342. DOI:10.1016/0550-3213(89)90346-5. |