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FCC Based Lepton-Hadron and Photon-Hadron Colliders: Luminosity and Physics

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arxiv 1608.02190 v3 pith:YWDZ3BLD submitted 2016-08-07 physics.acc-ph hep-exhep-ph

FCC Based Lepton-Hadron and Photon-Hadron Colliders: Luminosity and Physics

classification physics.acc-ph hep-exhep-ph
keywords collidersluminositycollisionsdedicatedenergyfuturelepton-hadronmuon
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Construction of future electron-positron colliders (or dedicated electron linac) and muon colliders (or dedicated muon ring) tangential to Future Circular Collider (FCC) will give opportunity to utilize highest energy proton and nucleus beams for lepton-hadron and photon-hadron collisions. Luminosity values of FCC based ep, \mup, eA, \muA, \gammap and \gammaA colliders are estimated. Multi-TeV center of mass energy ep colliders based on the FCC and linear colliders (LC) are considered in detail. Parameters of upgraded versions of the FCC proton beam are determined to optimize luminosity of electron-proton collisions keeping beam-beam effects in mind. Numerical calculations are performed using a currently being developed collision point simulator. It is shown that L_{ep}\sim10^{32}\,cm^{-2}s^{-1} can be achieved with LHeC-like upgrade of the FCC parameters.

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  1. Resolved photoproduction of the $B_c$ meson in electron-proton collisions

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    Direct gamma-gluon fusion dominates B_c photoproduction in ep collisions, with resolved gluon-gluon contributing O(10%) at low p_T across HERA to EIC energies.