You need JavaScript to view this

Conformal (WEYL) invariance and Higgs mechanism

Technical Report:

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.
Authors:
Publication Date:
Oct 01, 1991
Product Type:
Technical Report
Report Number:
IC-91/333
Reference Number:
SCA: 662110; PA: AIX-23:017666; SN: 92000661425
Resource Relation:
Other Information: PBD: Oct 1991
Subject:
72 PHYSICS OF ELEMENTARY PARTICLES AND FIELDS; YANG-MILLS THEORY; HIGGS MODEL; CONFORMAL INVARIANCE; GAUGE INVARIANCE; GRAVITATIONAL INTERACTIONS; SYMMETRY BREAKING; 662110; THEORY OF FIELDS AND STRINGS
OSTI ID:
10118410
Research Organizations:
International Centre for Theoretical Physics (ICTP), Trieste (Italy)
Country of Origin:
IAEA
Language:
English
Other Identifying Numbers:
Other: ON: DE92616925; TRN: XA9230509017666
Availability:
OSTI; NTIS (US Sales Only); INIS
Submitting Site:
INIS
Size:
6 p.
Announcement Date:
Jun 30, 2005

Technical Report:

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}
}