High Energy Photon-Photon Collisions at a Linear Collider
- SLAC
High intensity back-scattered laser beams will allow the efficient conversion of a substantial fraction of the incident lepton energy into high energy photons, thus significantly extending the physics capabilities of an e{sup -}e{sup +} linear collider. The annihilation of two photons produces C = + final states in virtually all angular momentum states. An important physics measurement is the measurement of the Higgs coupling to two photons. The annihilation of polarized photons into the Higgs boson determines its fundamental H{sup 0} {yields} {gamma}{gamma} coupling as well as determining its parity. Other novel two-photon processes include the two-photon production of charged pairs {tau}{sup +}{tau}{sup -}, W{sup +}W{sup -}, t{bar t} and supersymmetric squark and slepton pairs. The one-loop box diagram leads to the production of pairs of neutral particles such as {gamma}{gamma} {yields} Z{sup 0}Z{sup 0}, {gamma}Z{sup 0}, and {gamma}{gamma}. At the next order one can study Higgstrahlung processes, such as {gamma}{gamma} {yields} W{sup +}W{sup -}H. Since each photon can be resolved into a W{sup +}W{sup -} pair, high energy photon-photon collisions can also provide a remarkably background-free laboratory for studying possibly anomalous WW collisions and annihilation. In the case of QCD, each photon can materialize as a quark anti-quark pair which interact via multiple gluon exchange. The diffractive channels in photon-photon collisions allow a novel look at the QCD pomeron and odderon. The C = - odderon exchange contribution can be identified by looking at the heavy quark asymmetry. In the case of e{gamma} {yields} e{prime} collisions, one can measure the photon structure functions and its various components. Exclusive hadron production processes in photon-photon collisions provide important tests of QCD at the amplitude level, particularly as measures of hadron distribution amplitudes which are also important for the analysis of exclusive semi-leptonic and two-body hadronic B-decays.
- Research Organization:
- Stanford Linear Accelerator Center, Menlo Park, CA (US)
- Sponsoring Organization:
- USDOE Office of Science (US)
- DOE Contract Number:
- AC03-76SF00515
- OSTI ID:
- 826868
- Report Number(s):
- SLAC-PUB-10410
- Country of Publication:
- United States
- Language:
- English
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