Abstract
A massive Yang-Mills field theory with conformal invariance and gauge invariance is proposed. It involves gravitational and various gauge interactions, in which all the mass terms appear as a uniform form of interaction m(x) K{Phi}(x). When the conformal symmetry is broken spontaneously and gravitation is ignored, the Higgs field emerges naturally, where the imaginary mass {mu} can be described as a background curvature. (author). 7 refs.
Citation Formats
Shucheng, Zhao.
Conformal (WEYL) invariance and Higgs mechanism.
IAEA: N. p.,
1991.
Web.
Shucheng, Zhao.
Conformal (WEYL) invariance and Higgs mechanism.
IAEA.
Shucheng, Zhao.
1991.
"Conformal (WEYL) invariance and Higgs mechanism."
IAEA.
@misc{etde_10118410,
title = {Conformal (WEYL) invariance and Higgs mechanism}
author = {Shucheng, Zhao}
abstractNote = {A massive Yang-Mills field theory with conformal invariance and gauge invariance is proposed. It involves gravitational and various gauge interactions, in which all the mass terms appear as a uniform form of interaction m(x) K{Phi}(x). When the conformal symmetry is broken spontaneously and gravitation is ignored, the Higgs field emerges naturally, where the imaginary mass {mu} can be described as a background curvature. (author). 7 refs.}
place = {IAEA}
year = {1991}
month = {Oct}
}
title = {Conformal (WEYL) invariance and Higgs mechanism}
author = {Shucheng, Zhao}
abstractNote = {A massive Yang-Mills field theory with conformal invariance and gauge invariance is proposed. It involves gravitational and various gauge interactions, in which all the mass terms appear as a uniform form of interaction m(x) K{Phi}(x). When the conformal symmetry is broken spontaneously and gravitation is ignored, the Higgs field emerges naturally, where the imaginary mass {mu} can be described as a background curvature. (author). 7 refs.}
place = {IAEA}
year = {1991}
month = {Oct}
}