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Higgs bosons

Fig. 10. Muonium-antimuonium conversion in theories beyond the standard model. The interaction could be mediated by (a) a doubly charged Higgs boson A++ [52,53], (b) heavy Majorana neutrinos [52], (c) a neutral scalar [54], e.g. a supersymmetric r-sneutrino vT [55,56], or (d) a bileptonic gauge boson X++ [57]... Fig. 10. Muonium-antimuonium conversion in theories beyond the standard model. The interaction could be mediated by (a) a doubly charged Higgs boson A++ [52,53], (b) heavy Majorana neutrinos [52], (c) a neutral scalar [54], e.g. a supersymmetric r-sneutrino vT [55,56], or (d) a bileptonic gauge boson X++ [57]...
Interpretation (ii) has triumphed, but one may still argue about what m really is. If m is a fundamental "essence," of dimension [M], then force and field have dimensions [M] [L] [T]-2, while energy has units [M] [L]2 [T] 2. What rest mass an elementary particle should have may be predictable if the Higgs boson is ever found. [Pg.26]

Three main contenders for baryogenesis are GUT genesis, leptogenesis, and SUSY scenarios. The GUT scenario is still alive, for instance in models based on SO(IO) with B - L violation. The best candidate for B-genesis is the colored triplet of Higgs boson Xh, which has 2 types of channels with different baryon numbers, q l and q q. [Pg.87]

See the Particle Listings for a Note giving details of Higgs Bosons. ... [Pg.1742]

Heavy Bosons Other than Higgs Bosons, Searches for... [Pg.1742]

The remaining scalar field (f> x) is then to be identified with the Higgs boson. The three degrees of freedom seemingly be lost due to gauging reappear as an additional longitudinal component of the spin 1 vector gauge... [Pg.208]

Therefore, one obtains the scalar Higgs boson (0) with the mass term /—/ , three massive vector bosons and with the masses... [Pg.210]

The big bang is the ultimate in isolated events. There is nothing around to provide a frame of reference against which to specify where, how or when it happens. There is no envirorunent in which to generate emergent properties like space or time. It cannot produce motion, let alone mass. Even a Higgs boson needs a broken syrmnetry, which presupposes symmetry - of what ... [Pg.296]

ATLAS 140 tAr CERN EM and hadron calorimeters Electrons, photons, hadrons, and Higgs boson 2007... [Pg.207]

In recent years a search has been made for a hypothetical particle known as the Hi s particle or Higgs boson, suggested in 1966 by Peter Higgs of the University of Edinburgh, which could possibly explain why the carriers of the electro-weak field (w and z bosons) have mass. The Higgs particle is thought to be responsible possibly for the mass of objects throughout the universe. [Pg.698]

See other pages where Higgs bosons is mentioned: [Pg.201]    [Pg.55]    [Pg.422]    [Pg.79]    [Pg.288]    [Pg.289]    [Pg.289]    [Pg.292]    [Pg.304]    [Pg.314]    [Pg.8]    [Pg.12]    [Pg.68]    [Pg.81]    [Pg.87]    [Pg.87]    [Pg.894]    [Pg.470]    [Pg.915]    [Pg.652]    [Pg.1741]    [Pg.1742]    [Pg.1742]    [Pg.1742]    [Pg.644]    [Pg.1687]    [Pg.1688]    [Pg.1688]    [Pg.1688]    [Pg.215]    [Pg.217]    [Pg.894]    [Pg.1604]    [Pg.1607]   
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Bosons

Higgs

The Higgs boson

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