62 research outputs found
~115 GeV and ~143 GeV Higgs mass considerations within the Composite Particles Model
The radiatively generated Higgs mass is obtained by requiring that leading
"divergences" are cancelled in both 2D and 4D. This predicts one or more viable
modes; the k=1 mode mass is m_H\cong2/3 m_t\cong115GeV whereas the k=2 mode is
m_H\cong143GeV. These findings are interpreted within the Composite Particles
Model (CPM), [Popovic 2002, 2010], with the massive top quark being a composite
structure composed of 3 fundamental O quarks (O\bar{O}O) and the massive Higgs
scalar being a color-neutral meson like structure composed of 2 fundamental O
quarks (\bar{O}O). The CPM predicts that the Z mass generation is mediated
primarily by a top - anti top whereas the Higgs mass is generated primarily by
a O - anti O interactions. The relationship [Popovic 2010] between top Yukawa
coupling and strong QCD coupling, obtained by requiring that top - anti top
channel is neither attractive or repulsive at tree level at \surd s\congM_Z,
defines the Z mass. In addition, this relationship indirectly defines the
electroweak symmetry breaking (EWSB) vacuum expectation value (VEV), the CPM
Higgs mass and potentially the EWSB scale.Comment: 11 pages, 3 figures, slightly updated second version: Lagrangian
explicitly specified, OOO->O\bar{O}O and a few other typos correcte
On a peculiarity of structure formation in combustion of high-caloric metallothermic compounds under microgravity conditions
Effect of low-cycle loading on phase transformations and the development of substructure in steel Kh18N10T
Fredholm Property of Integral Operators with Homogeneous Kernels of Compact Type in the L2 Space on the Heisenberg Group
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