Abstract
The renormalization group analyses of the masses of the heavy fermions and the Higgs boson, including the discussions of possible fixed points and applicability of perturbation theory, are expounded in the full four-generation quark-lepton condensate scheme of the minimal electroweak symmetry breaking. The results also indicate that the model could accommodate itself to the top-quark mass m{sub t} = 160 - 180GeV. The predicted Higgs boson mass is in fact not too sensitive to the above change of m{sub t}. It is also found that for a model without the fourth generation of leptons, the limitation to {Lambda} imposed by the requirement that the masses of the fourth generation of extra quarks are bigger than m{sub t} = 174GeV could be greatly relaxed up to {<=} 10{sup 11} GeV. (author). 16 refs, 4 tabs.
Citation Formats
Bangrong, Zhou.
Renormalization group analyses of particle masses in full four-generation fermion condensate scheme.
IAEA: N. p.,
1994.
Web.
Bangrong, Zhou.
Renormalization group analyses of particle masses in full four-generation fermion condensate scheme.
IAEA.
Bangrong, Zhou.
1994.
"Renormalization group analyses of particle masses in full four-generation fermion condensate scheme."
IAEA.
@misc{etde_10112533,
title = {Renormalization group analyses of particle masses in full four-generation fermion condensate scheme}
author = {Bangrong, Zhou}
abstractNote = {The renormalization group analyses of the masses of the heavy fermions and the Higgs boson, including the discussions of possible fixed points and applicability of perturbation theory, are expounded in the full four-generation quark-lepton condensate scheme of the minimal electroweak symmetry breaking. The results also indicate that the model could accommodate itself to the top-quark mass m{sub t} = 160 - 180GeV. The predicted Higgs boson mass is in fact not too sensitive to the above change of m{sub t}. It is also found that for a model without the fourth generation of leptons, the limitation to {Lambda} imposed by the requirement that the masses of the fourth generation of extra quarks are bigger than m{sub t} = 174GeV could be greatly relaxed up to {<=} 10{sup 11} GeV. (author). 16 refs, 4 tabs.}
place = {IAEA}
year = {1994}
month = {Sep}
}
title = {Renormalization group analyses of particle masses in full four-generation fermion condensate scheme}
author = {Bangrong, Zhou}
abstractNote = {The renormalization group analyses of the masses of the heavy fermions and the Higgs boson, including the discussions of possible fixed points and applicability of perturbation theory, are expounded in the full four-generation quark-lepton condensate scheme of the minimal electroweak symmetry breaking. The results also indicate that the model could accommodate itself to the top-quark mass m{sub t} = 160 - 180GeV. The predicted Higgs boson mass is in fact not too sensitive to the above change of m{sub t}. It is also found that for a model without the fourth generation of leptons, the limitation to {Lambda} imposed by the requirement that the masses of the fourth generation of extra quarks are bigger than m{sub t} = 174GeV could be greatly relaxed up to {<=} 10{sup 11} GeV. (author). 16 refs, 4 tabs.}
place = {IAEA}
year = {1994}
month = {Sep}
}