Towards an Optimized Monochromatization for direct Higgs Production in Future Circular e+ e- Colliders

Authors

  • Marco Alan Valdivia García University of Guanajuato / CERN
  • Frank Zimmermann CERN

DOI:

https://doi.org/10.23727/CERN-Proceedings-2017-001.1

Keywords:

Monochromatization, beamstrahlung, collider, high energy, high luminosity, storage ring.

Abstract

Direct s-channel Higgs production in e+e- collisions is of interest if the centre-of-mass energy spread can be reduced to be comparable to the width of the standard model Higgs boson. A monochromatization principle, previously proposed for several earlier lower-energy colliders, could be employed in order to achieve the desired reduction, by introducing a nonzero horizontal dispersion of opposite sign for the two colliding beams at the interaction point. In high-energy high-luminosity circular colliders, beamstrahlung may increase the energy spread and bunch length. The horizontal emittance blow up due to beamstrahlung, a new effect which was not present in past monochromatization proposals, may degrade the performance, especially the luminosity. We study, for the FCC-ee at 62.5~GeV beam energy, how we can optimize the IP optics parameters, along with the number of particles per bunch so as to obtain maximum luminosity at a desired target value of the collision energy spread.

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Published

2017-06-29

Issue

Vol. 1 (2017): CERN-BINP Workshop for Young Scientists in e+e- Colliders

Section

Submission to the proceedings of CERN-BINP Workshop for young scientists in e+e- colliders

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