Higgs boson production at a photon linear collider

The collision of high-energy, high-intensity photon beams would provide novel opportunities for particle physics. These beams could be obtained at a linear [ital e][sup +][ital e[minus]] collider via Compton backscattering using high-powered lasers. The resulting photon linear collider offers highly...

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Bibliographic Details
Published in:Physical review. D, Particles and fields Particles and fields, 1993-11, Vol.48 (9), p.4018-4028
Main Authors: BORDEN, D. L, BAUER, D. A, CALDWELL, D. O
Format: Article
Language:English
Subjects:
662210 - Specific Theories & Interaction Models
662310 - Weak & Electromagnetic Interactions of Leptons- (1992-)
662440 - Properties of Other Particles Including Hypothetical Particles- (1992-)
ACCELERATORS
Applications of electroweak models to specific processes
BEAMS
Electroweak interactions
ELEMENTARY PARTICLES
Exact sciences and technology
Gauge bosons
HIGGS BOSONS
LINEAR ACCELERATORS
LINEAR COLLIDERS
LUMINOSITY
MATHEMATICAL MODELS
OPTICAL PROPERTIES
Other particles (including hypothetical)
Pa
PARTICLE MODELS
PARTICLE PRODUCTION
Particle Systematics- Unified Theories & Models- (1992-)
PHOTON BEAMS
Photons
PHYSICAL PROPERTIES
Physics
PHYSICS OF ELEMENTARY PARTICLES AND FIELDS
POLARIZED BEAMS
POSTULATED PARTICLES
POTENTIALS
Properties of specific particles
Specific reactions and phenomenology
Specific theories and interaction models
particle systematics
SPECTRA
STANDARD MODEL
Standard-model higgs bosons
SYMMETRY BREAKING
The physics of elementary particles and fields
UNIFIED GAUGE MODELS
Weak and electromagnetic interactions of leptons
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Summary:The collision of high-energy, high-intensity photon beams would provide novel opportunities for particle physics. These beams could be obtained at a linear [ital e][sup +][ital e[minus]] collider via Compton backscattering using high-powered lasers. The resulting photon linear collider offers highly polarized beams, large luminosities, and a variable luminosity spectrum. We examine the potential of such a machine to explore the Higgs sector of the standard model. We find a photon linear collider with [radical][ital s] [approx]250 GeV to be an excellent tool to search for an intermediate-mass Higgs boson, with the polarized photon beams being a particular asset, as they can be used to suppress backgrounds while enhancing the signal. In searching for intermediate-mass standard model Higgs bosons, a signal in excess of 10[sigma] over the entire intermediate mass region is possible with even moderate luminosity. Even more important is the application of a photon linear collider to measurement of the two-photon width of the Higgs boson, a measurement which gives crucial information about the nature of spontaneous symmetry breaking. We calculate that a photon linear collider with energy tuned to the Higgs boson mass allows a measurement of the two-photon width of the Higgs boson with a statistical precision of better than 10% over most of the intermediate- and heavy-mass range.
ISSN:0556-2821
1089-4918
DOI:10.1103/PhysRevD.48.4018