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A hybrid, asymmetric, linear Higgs factory based on plasma-wakefield and radio-frequency acceleration

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arxiv 2303.10150 v3 pith:5HSK53HM submitted 2023-03-17 physics.acc-ph hep-ex

A hybrid, asymmetric, linear Higgs factory based on plasma-wakefield and radio-frequency acceleration

classification physics.acc-ph hep-ex
keywords accelerationasymmetricconventionalcostplasma-wakefieldbecausecolliderelectrons
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The construction of an electron--positron collider "Higgs factory" has been stalled for a decade, not because of feasibility but because of the cost of conventional radio-frequency (RF) acceleration. Plasma-wakefield acceleration promises to alleviate this problem via significant cost reduction based on its orders-of-magnitude higher accelerating gradients. However, plasma-based acceleration of positrons is much more difficult than for electrons. We propose a collider scheme that avoids positron acceleration in plasma, using a mixture of beam-driven plasma-wakefield acceleration to high energy for the electrons and conventional RF acceleration to low energy for the positrons. We emphasise the benefits of asymmetric energies, asymmetric bunch charges and asymmetric transverse emittances. The implications for luminosity and experimentation at such an asymmetric facility are explored and found to be comparable to conventional facilities; the cost is found to be much lower. Some of the areas in which R\&D is necessary to make HALHF a reality are highlighted,including estimates for the improvement required in key technologies. These range from a factor of 10 to a factor of 1000.

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Cited by 1 Pith paper

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  1. TeV Electron Beams from Plasma Acceleration via Regenerative Cascading

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    PIC simulations of regenerative cascading show a 45 GeV, 100 nC driver yields a 1.1 TeV, 0.12 nC electron bunch with 0.3% energy spread in two plasma stages totaling under 1 km.