_version_ 1866916675973021696
author Andorf, Matthew B.
Bai, Mei
Bhat, Pushpalatha
Borzenets, Valery
Breidenbach, Martin
Dasu, Sridhara
Dhar, Ankur
Pree, Tristan du
Gray, Lindsey
Gessner, Spencer
Herbst, Ryan
Haase, Andrew
Jongewaard, Erik
Kim, Dongsung
Koushik, Anoop Nagesh
Krasnykh, Anatoly K.
Li, Zenghai
Liu, Chao
Maxson, Jared
Merrick, Julian
Morton, Sophia L.
Nanni, Emilio A.
Nassiri, Alireza
Ng, Cho-Kuen
Ntounis, Dimitrios
Othman, Mohamed A. K.
Oriunno, Marco
Palmer, Dennis
Peskin, Michael E.
Vernieri, Caterina
Shumail, Muhammad
Simakov, Evgenya
Snively, Emma
Sy, Ann
van der Graaf, Harry
Weatherford, Brandon
Xu, Haoran
author_facet Andorf, Matthew B.
Bai, Mei
Bhat, Pushpalatha
Borzenets, Valery
Breidenbach, Martin
Dasu, Sridhara
Dhar, Ankur
Pree, Tristan du
Gray, Lindsey
Gessner, Spencer
Herbst, Ryan
Haase, Andrew
Jongewaard, Erik
Kim, Dongsung
Koushik, Anoop Nagesh
Krasnykh, Anatoly K.
Li, Zenghai
Liu, Chao
Maxson, Jared
Merrick, Julian
Morton, Sophia L.
Nanni, Emilio A.
Nassiri, Alireza
Ng, Cho-Kuen
Ntounis, Dimitrios
Othman, Mohamed A. K.
Oriunno, Marco
Palmer, Dennis
Peskin, Michael E.
Vernieri, Caterina
Shumail, Muhammad
Simakov, Evgenya
Snively, Emma
Sy, Ann
van der Graaf, Harry
Weatherford, Brandon
Xu, Haoran
contents The Linear Collider Vision calls for a Linear Collider Facility with a physics reach from a Higgs Factory to the TeV-scale with $e^+e^{-}$ collisions. One of the technologies under consideration for the accelerator is a cold-copper distributed-coupling linac capable of achieving high gradient. This technology is being pursued by the C$^3$ collaboration to understand its applicability to future colliders and broader scientific applications. In this input we share the baseline parameters for a C$^3$ Higgs-factory and the energy reach of up to 3 TeV in the 33 km tunnel foreseen under the Linear Collider Vision. Recent results, near-term plans and future R\&D needs are highlighted.
format Preprint
id arxiv_https___arxiv_org_abs_2503_20829
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle ESPPU INPUT: C$^3$ within the "Linear Collider Vision"
Andorf, Matthew B.
Bai, Mei
Bhat, Pushpalatha
Borzenets, Valery
Breidenbach, Martin
Dasu, Sridhara
Dhar, Ankur
Pree, Tristan du
Gray, Lindsey
Gessner, Spencer
Herbst, Ryan
Haase, Andrew
Jongewaard, Erik
Kim, Dongsung
Koushik, Anoop Nagesh
Krasnykh, Anatoly K.
Li, Zenghai
Liu, Chao
Maxson, Jared
Merrick, Julian
Morton, Sophia L.
Nanni, Emilio A.
Nassiri, Alireza
Ng, Cho-Kuen
Ntounis, Dimitrios
Othman, Mohamed A. K.
Oriunno, Marco
Palmer, Dennis
Peskin, Michael E.
Vernieri, Caterina
Shumail, Muhammad
Simakov, Evgenya
Snively, Emma
Sy, Ann
van der Graaf, Harry
Weatherford, Brandon
Xu, Haoran
Accelerator Physics
The Linear Collider Vision calls for a Linear Collider Facility with a physics reach from a Higgs Factory to the TeV-scale with $e^+e^{-}$ collisions. One of the technologies under consideration for the accelerator is a cold-copper distributed-coupling linac capable of achieving high gradient. This technology is being pursued by the C$^3$ collaboration to understand its applicability to future colliders and broader scientific applications. In this input we share the baseline parameters for a C$^3$ Higgs-factory and the energy reach of up to 3 TeV in the 33 km tunnel foreseen under the Linear Collider Vision. Recent results, near-term plans and future R\&D needs are highlighted.
title ESPPU INPUT: C$^3$ within the "Linear Collider Vision"
topic Accelerator Physics
url https://arxiv.org/abs/2503.20829