Add to ORKGA helical cooling channel has been proposed to quickly reduce the six-dimensional phase space of muon beams for muon colliders, neutrino factories, and intense muon sources. A novel superconducting magnet system for a muon beam cooling experiment is being designed at Fermilab. The inner volume of the cooling channel is filled with liquid helium where passing muon beam can be decelerated and cooled in a process of ionization energy loss. The magnet parameters are optimized to match the momentum of the beam as it slows down. The results of 3D magnetic analysis for two designs of magnet system, mechanical and quench protection considerations are discussed
The Helical Cooling Channel (HCC), a novel technique for six-dimensional (6D) ionization cooling of ...
The helical cooling channel is proposed to make a quick muon beam phase space cooling in a short cha...
As discussed before,[1] a cooling channel using quadrupole magnets in a FODO transport channel can b...
Helical cooling channels with superimposed solenoid and helical dipole and quadrupole coils, and a p...
Novel configurations of superconducting magnet system for Muon Beam Cooling Experiment is under desi...
Helical cooling channels with superimposed solenoid and helical dipole and quadrupole coils, and a p...
A helical cooling channel (HCC) can quickly reduce the six dimensional phase space of muon beams for...
Novel magnetic helical channel designs for capture and cooling of bright muon beams are being develo...
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...
A helical cooling channel (HCC) has been proposed to quickly reduce six-dimensional (6D) phase space...
The fast reduction of the six-dimensional phase space of muon beams is an essential requirement for ...
The Helical Cooling Channel (HCC) was proposed for 6D cooling of muon beams required for muon collid...
Abstract A six-dimensional (6D) ionization cooling channel based on helical magnets surrounding RF c...
The Helical Cooling Channel (HCC), a novel technique for six-dimensional (6D) ionization cooling of ...
The helical cooling channel is proposed to make a quick muon beam phase space cooling in a short cha...
As discussed before,[1] a cooling channel using quadrupole magnets in a FODO transport channel can b...
Helical cooling channels with superimposed solenoid and helical dipole and quadrupole coils, and a p...
Novel configurations of superconducting magnet system for Muon Beam Cooling Experiment is under desi...
Helical cooling channels with superimposed solenoid and helical dipole and quadrupole coils, and a p...
A helical cooling channel (HCC) can quickly reduce the six dimensional phase space of muon beams for...
Novel magnetic helical channel designs for capture and cooling of bright muon beams are being develo...
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...
A helical cooling channel (HCC) has been proposed to quickly reduce six-dimensional (6D) phase space...
The fast reduction of the six-dimensional phase space of muon beams is an essential requirement for ...
The Helical Cooling Channel (HCC) was proposed for 6D cooling of muon beams required for muon collid...
Abstract A six-dimensional (6D) ionization cooling channel based on helical magnets surrounding RF c...
The Helical Cooling Channel (HCC), a novel technique for six-dimensional (6D) ionization cooling of ...
The helical cooling channel is proposed to make a quick muon beam phase space cooling in a short cha...
As discussed before,[1] a cooling channel using quadrupole magnets in a FODO transport channel can b...