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Nucleon Properties from Unconventional Interpolating Fields
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Interpolating fields, used to excite hadrons from the QCD vacuum in nonperturbative field-theoretic investigations of hadron properties, are explored with an emphasis on unconventional nucleon interpolators. The QCD continuum model for excited state contributions to QCD correlation functions is a central element in extracting the physics contained in these alternate correlation functions. The analysis confirms the independence of nucleon properties obtained from different interpolating fields. However, this independence comes about in a trivial manner. These results provide a resolution to the long standing debate over the optimal nucleon interpolating field to be used in QCD Sum Rule analyses.
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Cited by 1 Pith paper
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Understanding the structure of nucleon excitations from their wavefunctions
Lattice calculations of nucleon wavefunctions reveal superposition nodes from mixing interpolating fields and built-in nodes intrinsic to individual s-wave Dirac components.
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