Add to ORKGLow-energy muon beams are useful for a range of physics experiments. We consider the production of low-energy muon beams with small energy spreads using frictional cooling. As the input beam, we take a surface muon source such as that at the Paul Scherrer Institute. Simulations show that the efficiency of low energy muon production can potentially be raised to 1%, which is significantly higher than that of current schemes
The use of accelerated beams of electrons, protons or ions has furthered the development of nearly e...
The use of accelerated beams of electrons, protons or ions has furthered the development of nearly e...
Accelerated muon beams have been considered for next-generation studies of high-energy lepton-antile...
Muon Colliders would usher in a new era of scientific investigation in the field of high energy part...
Frictional cooling is a proposed method of phase space reduction for a potential muon beam intended ...
Muon Colliders would usher in a new era of scientific investigation in the field of high energy part...
One of the focuses of research and development towards the construction of a muon collider is muon b...
Muon cooling is the main technological obstacle in the building of a muon collider. A muon cooling s...
A muon collider would open new frontiers of investigation in high energy particle physics, allowing ...
Within the framework of the Fermilab Muon Collider Task Force, the possibility of developing a dedic...
Low emittance muon beams are central to the development of facilities such as a Neutrino Factory or ...
Muon Cooling is the key factor in building of a Muon collider, (to a less degree) Muon storage ring,...
Particle physics is at a stage where new, innovative, techniques are required if the push to higher ...
The use of accelerated beams of electrons, protons or ions has furthered the development of nearly e...
The use of accelerated beams of electrons, protons or ions has furthered the development of nearly e...
Accelerated muon beams have been considered for next-generation studies of high-energy lepton-antile...
Muon Colliders would usher in a new era of scientific investigation in the field of high energy part...
Frictional cooling is a proposed method of phase space reduction for a potential muon beam intended ...
Muon Colliders would usher in a new era of scientific investigation in the field of high energy part...
One of the focuses of research and development towards the construction of a muon collider is muon b...
Muon cooling is the main technological obstacle in the building of a muon collider. A muon cooling s...
A muon collider would open new frontiers of investigation in high energy particle physics, allowing ...
Within the framework of the Fermilab Muon Collider Task Force, the possibility of developing a dedic...
Low emittance muon beams are central to the development of facilities such as a Neutrino Factory or ...
Muon Cooling is the key factor in building of a Muon collider, (to a less degree) Muon storage ring,...
Particle physics is at a stage where new, innovative, techniques are required if the push to higher ...
The use of accelerated beams of electrons, protons or ions has furthered the development of nearly e...
The use of accelerated beams of electrons, protons or ions has furthered the development of nearly e...
Accelerated muon beams have been considered for next-generation studies of high-energy lepton-antile...