2007 IEEE Particle Accelerator Conference (PAC) 2007
DOI: 10.1109/pac.2007.4440245
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Magnets for the MANX 6-D muon cooling demonstration experiment

Abstract: MANX is a 6-dimensional muon ionization-cooling experiment that has been proposed to Fermilab to demonstrate the use of a Helical Cooling Channel (HCC) for future muon colliders and neutrino factories. The HCC for MANX has solenoidal, helical dipole, and helical quadrupole magnetic components which diminish as the beam loses energy as it slow down in a liquid helium absorber inside the magnets. Additional magnets that provide emittance matching between the HCC and upstream and downstream spectrometers are also… Show more

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Cited by 9 publications
(6 citation statements)
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“…1 the large-bore solenoid with added helical coils, the HS has half the coil diameter, a quarter of the superconductor volume, seven times lower total magnetic field energy, lower peak field in the superconductor (5.7 T vs. 7.6 T), correspondingly lower Lorentz forces, and naturally generated helical dipole and quadrupole fields. This more efficient HS concept was chosen for further investigation and has been discussed briefly [4], [5]. This paper summarizes further investigations of the HCC for muon beam cooling.…”
Section: Superconducting Helical Solenoids For Muon Beam Cooling I Imentioning
confidence: 99%
“…1 the large-bore solenoid with added helical coils, the HS has half the coil diameter, a quarter of the superconductor volume, seven times lower total magnetic field energy, lower peak field in the superconductor (5.7 T vs. 7.6 T), correspondingly lower Lorentz forces, and naturally generated helical dipole and quadrupole fields. This more efficient HS concept was chosen for further investigation and has been discussed briefly [4], [5]. This paper summarizes further investigations of the HCC for muon beam cooling.…”
Section: Superconducting Helical Solenoids For Muon Beam Cooling I Imentioning
confidence: 99%
“…One version of the HCC uses a series of high-gradient RF cavities filled with dense hydrogen gas, where the cavities are in a magnetic channel composed of a solenoidal field with superimposed helical transverse dipole and quadrupole fields [23,24]. In this scheme, energy loss, RF energy regeneration, emittance exchange, and longitudinal and transverse cooling happen simultaneously.…”
Section: Gas-filled Helical Cooling Channel (Hcc)mentioning
confidence: 99%
“…The HCC is an attractive example of a cooling channel based on this idea of energy loss dependence on path length in a continuous absorber. One version of the HCC uses a series of high-gradient RF cavities filled with dense hydrogen gas, where the cavities are in a magnetic channel composed of a solenoid field with superimposed helical transverse dipole and quadrupole fields [15,16]. In this scheme, energy loss, RF energy regeneration, emittance exchange, and longitudinal and transverse cooling happen simultaneously.…”
Section: Gas-filled Helical Cooling Channel (Hcc)mentioning
confidence: 99%