Add to ORKGConsiderable progress has been made in developing promising subsystems for muon beam cooling channels to provide the extraordinary reduction of emittances required for an energy-frontier muon collider. However, it has not yet been demonstrated that the various proposed cooling subsystems can be consolidated into an integrated end-to-end design. Presented here are concepts to address the matching of transverse emittances between subsystems through an extension of the theoretical framework of the Helical Cooling Channel (HCC), which allows a general analytical approach to guide the transition from one set of cooling channel parameters to another
A complete scheme for production and cooling a muon beam for three specified muon colliders is prese...
A helical cooling channel (HCC) can quickly reduce the six dimensional phase space of muon beams for...
The most promising designs for 6D muon cooling channels operate on a specific sign of electric charg...
Fast muon beam six dimensional (6D) phase space cooling is essential for muon colliders. The Helical...
Fast muon beam six dimensional (6D) phase space cooling is essential for muon colliders. The Helical...
New ideas are being developed to cool muon beams for colliders, neutrino factories, and muon experim...
Novel magnetic helical channel designs for capture and cooling of bright muon beams are being develo...
A helical cooling channel (HCC) has been proposed to quickly reduce six-dimensional (6D) phase space...
A high-luminosity muon collider requires a reduction of the six-dimensional emittance of the capture...
Transverse cooling of muon beams can be achieved through ionization cooling. However, longitudinal e...
Using a moment formalism [1, 2] we model beam trans-port in the muon collider cooling channel. This ...
A muon collider requires a reduction of the six-dimensional emittance of the captured muon beam by s...
A procedure uses the equations that govern ionization cooling, and leads to the most important param...
Adviser: Bela Erdelyi.Muon colliders have been proposed for the next generation of particle accelera...
The fast reduction of the six-dimensional phase space of muon beams is an essential requirement for ...
A complete scheme for production and cooling a muon beam for three specified muon colliders is prese...
A helical cooling channel (HCC) can quickly reduce the six dimensional phase space of muon beams for...
The most promising designs for 6D muon cooling channels operate on a specific sign of electric charg...
Fast muon beam six dimensional (6D) phase space cooling is essential for muon colliders. The Helical...
Fast muon beam six dimensional (6D) phase space cooling is essential for muon colliders. The Helical...
New ideas are being developed to cool muon beams for colliders, neutrino factories, and muon experim...
Novel magnetic helical channel designs for capture and cooling of bright muon beams are being develo...
A helical cooling channel (HCC) has been proposed to quickly reduce six-dimensional (6D) phase space...
A high-luminosity muon collider requires a reduction of the six-dimensional emittance of the capture...
Transverse cooling of muon beams can be achieved through ionization cooling. However, longitudinal e...
Using a moment formalism [1, 2] we model beam trans-port in the muon collider cooling channel. This ...
A muon collider requires a reduction of the six-dimensional emittance of the captured muon beam by s...
A procedure uses the equations that govern ionization cooling, and leads to the most important param...
Adviser: Bela Erdelyi.Muon colliders have been proposed for the next generation of particle accelera...
The fast reduction of the six-dimensional phase space of muon beams is an essential requirement for ...
A complete scheme for production and cooling a muon beam for three specified muon colliders is prese...
A helical cooling channel (HCC) can quickly reduce the six dimensional phase space of muon beams for...
The most promising designs for 6D muon cooling channels operate on a specific sign of electric charg...