Add to ORKGWe describe the scientific motivation for a new type of accelerator, the muon collider. This accelerator would permit an energy-frontier scientific program and yet would fit on the site of an existing laboratory. Such a device is quite challenging, and requires a substantial R&D program. After describing the ingredients of the facility, the ongoing R&D activities of the Muon Accelerator Program are discussed. A possible U.S. scenario that could lead to a muon collider at Fermilab is briefly mentioned
Historically, progress in particle physics has largely beendetermined by development of more capable...
This document contains a description of a multi-year national R&D program aimed at completing a ...
This document contains a description of a multi-year national R&D program aimed at completing a ...
We describe the scientific motivation for a new type of accelerator, the muon collider. This acceler...
We describe the scientific motivation for a new type of accelerator, the muon collider. This acceler...
We describe the scientific motivation for a new type of accelerator, the muon collider. This acceler...
We describe the scientific motivation for a new type of accelerator, the muon collider. This acceler...
A muon collider would be a powerful tool for exploring the energy-frontier with leptons, and would c...
An accelerator complex that can produce ultra-intense beams of muons presents many opportunities to ...
There are three types of future neutrino facilities currently under study, one based on decays of st...
There are three types of future neutrino facilities currently under study, one based on decays of st...
There are three types of future neutrino facilities currently under study, one based on decays of st...
The US Department of Energy Office of High Energy Physics has recently approved a Muon Accelerator P...
Historically, progress in particle physics has largely been determined by development of more capab...
This document contains a description of a multi-year national R&D program aimed at completing a ...
Historically, progress in particle physics has largely beendetermined by development of more capable...
This document contains a description of a multi-year national R&D program aimed at completing a ...
This document contains a description of a multi-year national R&D program aimed at completing a ...
We describe the scientific motivation for a new type of accelerator, the muon collider. This acceler...
We describe the scientific motivation for a new type of accelerator, the muon collider. This acceler...
We describe the scientific motivation for a new type of accelerator, the muon collider. This acceler...
We describe the scientific motivation for a new type of accelerator, the muon collider. This acceler...
A muon collider would be a powerful tool for exploring the energy-frontier with leptons, and would c...
An accelerator complex that can produce ultra-intense beams of muons presents many opportunities to ...
There are three types of future neutrino facilities currently under study, one based on decays of st...
There are three types of future neutrino facilities currently under study, one based on decays of st...
There are three types of future neutrino facilities currently under study, one based on decays of st...
The US Department of Energy Office of High Energy Physics has recently approved a Muon Accelerator P...
Historically, progress in particle physics has largely been determined by development of more capab...
This document contains a description of a multi-year national R&D program aimed at completing a ...
Historically, progress in particle physics has largely beendetermined by development of more capable...
This document contains a description of a multi-year national R&D program aimed at completing a ...
This document contains a description of a multi-year national R&D program aimed at completing a ...