Muon Collider Forum Report
Abstract
A multi-TeV muon collider offers a spectacular opportunity in the direct exploration of the energy frontier. Offering a combination of unprecedented energy collisions in a comparatively clean leptonic environment, a high energy muon collider has the unique potential to provide both precision measurements and the highest energy reach in one machine that cannot be paralleled by any currently available technology. The topic generated a lot of excitement in Snowmass meetings and continues to attract a large number of supporters, including many from the early career community. In light of this very strong interest within the US particle physics community, Snowmass Energy, Theory and Accelerator Frontiers created a cross-frontier Muon Collider Forum in November of 2020. The Forum has been meeting on a monthly basis and organized several topical workshops dedicated to physics, accelerator technology, and detector R&D. Findings of the Forum are summarized in this report.
Keywords
Cite
@article{arxiv.2209.01318,
title = {Muon Collider Forum Report},
author = {K. M. Black and S. Jindariani and D. Li and F. Maltoni and P. Meade and D. Stratakis and D. Acosta and R. Agarwal and K. Agashe and C. Aime and D. Ally and A. Apresyan and A. Apyan and P. Asadi and D. Athanasakos and Y. Bao and E. Barzi and N. Bartosik and L. A. T. Bauerdick and J. Beacham and S. Belomestnykh and J. S. Berg and J. Berryhill and A. Bertolin and P. C. Bhat and M. E. Biagini and K. Bloom and T. Bose and A. Bross and E. Brost and N. Bruhwiler and L. Buonincontri and D. Buttazzo and V. Candelise and A. Canepa and L. Carpenter and M. Casarsa and F. Celiberto and C. Cesarotti and G. Chachamis and Z. Chacko and P. Chang and S. V. Chekanov and T. Y. Chen and M. Chiesa and T. Cohen and M. Costa and N. Craig and A. Crivellin and C. Curatolo and D. Curtin and G. Da Molin and S. Dasu and A. de Gouvea and D. Denisov and R. Dermisek and K. F. Di Petrillo and T. Dorigo and J. M. Duarte and V. D. Elvira and R. Essig and P. Everaerts and J. Fan and M. Felcini and G. Fiore and D. Fiorina and M. Forslund and R. Franceschini and M. V. Garzelli and C. E. Gerber and L. Giambastiani and D. Giove and S. Guiducci and T. Han and K. Hermanek and C. Herwig and J. Hirschauer and T. R. Holmes and S. Homiller and L. A. Horyn and A. Ivanov and B. Jayatilaka and H. Jia and C. K. Jung and Y. Kahn and D. M. Kaplan and M. Kaur and M. Kawale and P. Koppenburg and G. Krintiras and K. Krizka and B. Kuchma and L. Lee and L. Li and P. Li and Q. Li and W. Li and R. Lipton and Z. Liu and S. Lomte and Q. Lu and D. Lucchesi and T. Luo and K. Lyu and Y. Ma and P. A. N. Machado and C. Madrid and D. J. Mahon and A. Mazzacane and N. McGinnis and C. McLean and B. Mele and F. Meloni and S. C. Middleton and R. K. Mishra and N. Mokhov and A. Montella and M. Morandin and S. Nagaitsev and F. Nardi and M. S. Neubauer and D. V. Neuffer and H. Newman and R. Ogaz and I. Ojalvo and I. Oksuzian and T. Orimoto and B. Ozek and K. Pachal and S. Pagan Griso and P. Panci and V. Papadimitriou and N. Pastrone and K. Pedro and F. Pellemoine and A. Perloff and D. Pinna and F. Piccinini and Marc-Andre Pleier and S. Posen and K. Potamianos and S. Rappoccio and M. Reece and L. Reina and A. Reinsvold Hall and C. Riccardi and L. Ristori and T. Robens and R. Ruiz and P. Sala and D. Schulte and L. Sestini and V. Shiltsev and P. Snopok and G. Stark and J. Stupak and S . Su and R. Sundrum and M. Swiatlowski and M. J. Syphers and A. Taffard and W. Thompson and Y. Torun and C. G. Tully and I. Vai and M. Valente and U. van Rienen and R. van Weelderen and G. Velev and N. Venkatasubramanian and L. Vittorio and C. Vuosalo and X. Wang and H. Weber and R. Wu and Y. Wu and A. Wulzer and K. Xie and S. Xie and R. Yohay and K. Yonehara and F. Yu and A. V. Zlobin and D. Zuliani and J. Zurita},
journal= {arXiv preprint arXiv:2209.01318},
year = {2023}
}