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Testing a Non-perturbative Mechanism for Elementary Fermion Mass Generation: Numerical Results
Stefano Capitani
Giulia Maria De Divitiis
Petros Dimopoulos
Roberto Frezzotti
Marco Garofalo
Bastian Knippschild
Bartosz Kostrzewa
Ferenc Pittler
Giancarlo Rossi
Carsten Urbach
出版
EDP Sciences
, 2018
URL
http://books.google.com.hk/books?id=G-DhzwEACAAJ&hl=&source=gbs_api
註釋
Based on a recent proposal according to which elementary particle masses could be generated by a non-perturbative dynamical phenomenon, alternative to the Higgs mechanism, we carry out lattice simulations of a model where a non-abelian strongly interacting fermion doublet is also coupled to a doublet of complex scalar fields via a Yukawa and an "irrelevant" Wilson-like term. In this pioneering study we use naive fermions and work in the quenched approximation. We present preliminary numerical results both in the Wigner and in the Nambu-Goldstone phase, focusing on the observables relevant to check the occurrence of the conjectured dynamical fermion mass generation effect in the continuum limit of the critical theory in its spontaneously broken phase.