Recent Innovations in Muon Beam Cooling

Johnson, Rolland P; Alsharo'a, Mohammad; Hanlet, Pierrick M; Hartline, Robert; Kuchnir, Moyses; Paul, Kevin; Roberts, Thomas J; Ankenbrandt, Charles; Barzi, Emanuela; Del Frate, Licia; Gonin, Ivan; Moretti, Alfred; Neuffer, David; Popovic, Milorad; Romanov, Gennady; Turrioni, Daniele; Yarba, Victor; Beard, Kevin; Bogacz, S Alex; Derbenev, Yaroslav

doi:10.1063/1.2190143

Title: Recent Innovations in Muon Beam Cooling

Journal Article · Mon Mar 20 00:00:00 EST 2006 · AIP Conference Proceedings

DOI:https://doi.org/10.1063/1.2190143· OSTI ID:20798432

Johnson, Rolland P; Alsharo'a, Mohammad; Hanlet, Pierrick M; Hartline, Robert; Kuchnir, Moyses; Paul, Kevin; Roberts, Thomas J ^[1]; Ankenbrandt, Charles; Barzi, Emanuela; Del Frate, Licia; Gonin, Ivan; Moretti, Alfred; Neuffer, David; Popovic, Milorad; Romanov, Gennady; Turrioni, Daniele; Yarba, Victor ^[2]; Beard, Kevin; Bogacz, S Alex; Derbenev, Yaroslav ^[3]

Muons, Inc., Batavia, Illinois (United States)
Fermi National Accelerator Laboratory, Batavia, Illinois (United States)
Thomas Jefferson National Accelerator Facility, Newport News, Virginia (United States)

Eight new ideas are being developed under SBIR/STTR grants to cool muon beams for colliders, neutrino factories, and muon experiments. Analytical and simulation studies have confirmed that a six-dimensional (6D) cooling channel based on helical magnets surrounding RF cavities filled with dense hydrogen gas can provide effective beam cooling. This helical cooling channel (HCC) has solenoidal, helical dipole, helical quadrupole, and helical sextupole magnetic fields to generate emittance exchange and achieve 6D emittance reduction of over 3 orders of magnitude in a 100 m segment. Four such sequential HCC segments, where the RF frequencies are increased and transverse physical dimensions reduced as the beams become cooler, implies a 6D emittance reduction of almost five orders of magnitude. Two new cooling ideas, Parametric-resonance Ionization Cooling and Reverse Emittance Exchange, then can be employed to reduce transverse emittances to a few mm-mr, which allows high luminosity with fewer muons than previously imagined. We describe these new ideas as well as a new precooling idea based on a HCC with z dependent fields that can be used as MANX, an exceptional 6D cooling demonstration experiment.

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OSTI ID:: 20798432

Journal Information:: AIP Conference Proceedings, Vol. 821, Issue 1; Conference: COOL05: International workshop on beam cooling and related topics, Galena, IL (United States), 18-23 Sep 2005; Other Information: DOI: 10.1063/1.2190143; (c) 2006 American Institute of Physics; Country of input: International Atomic Energy Agency (IAEA); ISSN 0094-243X

Country of Publication:: United States

Language:: English

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43 PARTICLE ACCELERATORS
ACCELERATORS
ADIABATIC DEMAGNETIZATION
BEAM BENDING MAGNETS
BEAM COOLING
BEAM DYNAMICS
BEAM FOCUSING MAGNETS
BEAM LUMINOSITY
CAVITY RESONATORS
COMPUTERIZED SIMULATION
DIPOLES
HYDROGEN
IONIZATION
MAGNETIC FIELDS
MUON BEAMS
MUONS
NEUTRINOS
QUADRUPOLES

Title: Recent Innovations in Muon Beam Cooling

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