MUTAC06: Muons, Inc. projects 1 Muons, Inc. Grants and Proposals Rolland Johnson, Muons, Inc. Muons, Inc. Grants and Proposals Rolland Johnson, Muons, Inc. Muons, Inc. In the last four years, several new techniques to cool muon beams have been invented and are under development supported by DOE Small Business Innovation Research grants. A short summary of these grants and 5 new proposals related to muon beams follows. In February, Muons, Inc. and the Fermilab TD sponsored the first annual low-emittance muon collider workshop at Fermilab (~65 participants). There is growing excitement about MC feasibility and synergy with the ILC. Papers can be found at workshop link is at also see

MUTAC06: Muons, Inc. projects 2 PARTICIPANTS:65 NFMCC Members:34 Fermilab8 Thomas Jefferson Lab1 Brookhaven National Lab2 Argonne National Lab1 Lawrence Berkeley National Lab1 Illinois Institute of Technology2 Michigan State University5 University of California at Los Angeles2 University of California at Riverside2 University of Mississippi2 KEK1 Muons, Inc.8 Non-NFMCC Members:31 Fermilab18 Thomas Jefferson Lab2 Illinois Institute of Technology2 University of Michigan1 University of Tsukuba / Waseda University1 Osaka University2 KEK1 Hbar Technologies, LLC1 Muons, Inc.2

MUTAC06: Muons, Inc. projects 3 Muon Beam Cooling Innovations Many new inventions and reestablishment of the principle that a neutrino factory should be on the direct path to a muon collider Many new inventions and reestablishment of the principle that a neutrino factory should be on the direct path to a muon collider Muon Colliders need small transverse emittance and low muon flux for many reasons (see workshop main page) Muon Colliders need small transverse emittance and low muon flux for many reasons (see workshop main page) A Neutrino Factory using a very cool muon beam which is accelerated in a superconducting proton driver Linac may be very cost-effective A Neutrino Factory using a very cool muon beam which is accelerated in a superconducting proton driver Linac may be very cost-effective Several new ideas have arisen in the last 4 years which are being developed under SBIR grants and have the potential to form muon beams with transverse emittances of a few mm-mrad Several new ideas have arisen in the last 4 years which are being developed under SBIR grants and have the potential to form muon beams with transverse emittances of a few mm-mrad May say more at end of talk about LEMC workshop favored scenario using extreme cooling and the SC Proton Driver Linac at Fermilab May say more at end of talk about LEMC workshop favored scenario using extreme cooling and the SC Proton Driver Linac at Fermilab Muons, Inc.

MUTAC06: Muons, Inc. projects 4 Muons, Inc. Project History Year ProjectExpected Funds Research Partner Year ProjectExpected Funds Research Partner 2002Company founded 2002Company founded High Pressure RF Cavities$600,000 IIT High Pressure RF Cavities$600,000 IIT Helical Cooling Channel$850,000JLab Helical Cooling Channel$850,000JLab † MANX demo experiment$ 95,000FNAL TD † MANX demo experiment$ 95,000FNAL TD Phase Ionization Cooling$745,000JLab Phase Ionization Cooling$745,000JLab Hydrogen Cryostat$795,000FNAL TD Hydrogen Cryostat$795,000FNAL TD *Reverse Emittance Exch.$100,000JLab *Reverse Emittance Exch.$100,000JLab *Capture, ph. rotation$100,000FNAL AD *Capture, ph. rotation$100,000FNAL AD new proposals submitted BNL, JLab, IIT,FNAL new proposals submitted BNL, JLab, IIT,FNAL * Can be extended to phase II for +$750,000 and +2 years † Not continued to Phase II SBIR/STTR funding: Solicitation September, Phase I proposal due December, Winners ~May, get $100,000 for 9 months, Phase II proposal due April, Winners June, get $750,000 for 2 years SBIR/STTR funding: Solicitation September, Phase I proposal due December, Winners ~May, get $100,000 for 9 months, Phase II proposal due April, Winners June, get $750,000 for 2 years Muons, Inc.

MUTAC06: Muons, Inc. projects 5 Muons, Inc. SBIR/STTR Collaboration: BNL BNL Ramesh Gupta, Robert Palmer, Erich WillenRamesh Gupta, Robert Palmer, Erich Willen Fermilab: Fermilab: Victor Yarba, Emanuela Barzi, Ivan Gonin, Timer Khabiboulline,Victor Yarba, Emanuela Barzi, Ivan Gonin, Timer Khabiboulline, Vladimir Kashikhin, Gennady Romanov, Daniele Turrioni, Katsuya Yonehara Vladimir Kashikhin, Gennady Romanov, Daniele Turrioni, Katsuya Yonehara Dave Neuffer, Chuck Ankenbrandt, Al Moretti, Milorad Popovic, Jim GriffinDave Neuffer, Chuck Ankenbrandt, Al Moretti, Milorad Popovic, Jim Griffin IIT: IIT: Dan Kaplan, Linda SpentzourisDan Kaplan, Linda Spentzouris JLab: JLab: Yaroslav Derbenev, Alex Bogacz, Kevin Beard, Yu-Chiu ChaoYaroslav Derbenev, Alex Bogacz, Kevin Beard, Yu-Chiu Chao Robert RimmerRobert Rimmer Muons, Inc.: Muons, Inc.: Rolland Johnson, Mohammad Alsharo’a, Mary Anne Cummings,Rolland Johnson, Mohammad Alsharo’a, Mary Anne Cummings, Pierrick Hanlet, Bob Hartline, Stephen Kahn, Moyses Kuchnir, Pierrick Hanlet, Bob Hartline, Stephen Kahn, Moyses Kuchnir, David Newsham, Kevin Paul, Tom Roberts David Newsham, Kevin Paul, Tom Roberts Underlined are young full-time accelerator scientists supported by SBIR grants First named are subgrant PI. Underlined are young full-time accelerator scientists supported by SBIR grants First named are subgrant PI. Muons, Inc.

MUTAC06: Muons, Inc. projects 6 1)Pressurized High Gradient RF Cavities (IIT, Dan Kaplan) 800 MHz test cell with GH2 to 1600 psi and 77 K in Lab G, MTA 800 MHz test cell with GH2 to 1600 psi and 77 K in Lab G, MTA Paschen curve verified Paschen curve verified Maximum gradient limited by breakdown of metal Maximum gradient limited by breakdown of metal fast conditioning seenfast conditioning seen Cu and Be have same breakdown limits (~50 MV/m), Mo ~20% better Cu and Be have same breakdown limits (~50 MV/m), Mo ~20% better Muons, Inc.

MUTAC06: Muons, Inc. projects 7 2) Six-Dimensional Cooling in a Continuous Absorber (JLab, Slava Derbenev) Helical cooling channel (HCC) Helical cooling channel (HCC) Continuous absorber for emittance exchangeContinuous absorber for emittance exchange Solenoidal, transverse helical dipole and quadrupole fieldsSolenoidal, transverse helical dipole and quadrupole fields Helical dipoles known from Siberian SnakesHelical dipoles known from Siberian Snakes z-independent Hamiltonianz-independent Hamiltonian Derbenev & Johnson, Theory of HCC, April/05 PRST-AB Muons, Inc.

MUTAC06: Muons, Inc. projects 8 6D Cooling factor ~ 50,000 G4BL (Geant4) results Muons, Inc.

MUTAC06: Muons, Inc. projects 9 3) Hydrogen Cryostat for Muon Beam Cooling (Fermilab, Victor Yarba) Technology for HCC components: HTS (nice BSSCO data from TD Ph I), Helical magnet design, low T Be or Cu coated RF cavities, windows, heat transport, refrigerant Cryostat for the 6DMANX cooling demonstration experiment (proposal 7) BNL Helical Dipole magnet for AGS spin control Muons, Inc.

MUTAC06: Muons, Inc. projects 10 4) Parametric-resonance Ionization Cooling (JLab, Slava Derbenev) x Excite ½ integer parametric resonance (in Linac or ring) Like vertical rigid pendulum or ½-integer extraction Elliptical phase space motion becomes hyperbolic Use xx’=const to reduce x, increase x’ Use IC to reduce x’ Detuning issues being addressed (chromatic and spherical aberrations, space-charge tune spread). Simulations underway. X’ X X Muons, Inc.

MUTAC06: Muons, Inc. projects 11 5) Reverse Emittance Exchange (JLab Slava Derbenev) p(cooling)=100MeV/c, p(colliding)=2.5 TeV/c => room in Δp/p space p(cooling)=100MeV/c, p(colliding)=2.5 TeV/c => room in Δp/p space Shrink the transverse dimensions of a muon beam to increase the luminosity of a muon collider using wedge absorbers Shrink the transverse dimensions of a muon beam to increase the luminosity of a muon collider using wedge absorbers 20 GeV Bunch coalescing in a ring a new idea for ph II, due 4/17/05 20 GeV Bunch coalescing in a ring a new idea for ph II, due 4/17/05 Neutrino factory and muon collider now have a common path Neutrino factory and muon collider now have a common path Evacuated Dipole Wedge Abs Incident Muon Beam pp t Concept of Reverse Emittance Exch. 1.3 GHz Bunch Coalescing at 20 GeV RF Drift Cooled at 100 MeV/c RF at 20 GeV Coalesced in 20 GeV ring Muons, Inc.

MUTAC06: Muons, Inc. projects 12 6) Capture, Bunching, and Precooling using HP GH2 RF (Fermilab David Neuffer) Simultaneous muon capture, RF bunch rotation, and precooling in the first stage of a muon beam line Simultaneous muon capture, RF bunch rotation, and precooling in the first stage of a muon beam line Phase rotation and beam cooling will be simulated Phase rotation and beam cooling will be simulated Continuation of the HP RF development in the MTA with high magnetic field and high radiation environment Continuation of the HP RF development in the MTA with high magnetic field and high radiation environment We need data from the MTA with the LBNL solenoid and the promise of the MTA beamline for a strong Phase II proposal due 4/17/05 We need data from the MTA with the LBNL solenoid and the promise of the MTA beamline for a strong Phase II proposal due 4/17/05 Increase in muons captured when 2 m of bunch rotation RF is applied starting 5 m from target. Muons, Inc.

MUTAC06: Muons, Inc. projects 13 5T Solenoid Pressure barrier 800 MHz Mark II Test Cell MuCool Test Area (MTA) Wave guide to coax adapter Muons, Inc.

MUTAC06: Muons, Inc. projects 14 7) 6D Muon Beam Cooling Demonstration (Fermilab, Victor Yarba) Helical Cooling Channel (HCC) experiment 500% 6d cooling in 4 m using LHe. Proposal to FNAL in preparation 8) 50 Tesla HTS Magnets for Beam Cooling (BNL, Ramesh Gupta) HTS solenoid at 4 K, new technology Very effective transverse muon cooling 9) Design and Simulation of Beams in Matter (IIT, Dan Kaplan) G4BeamLine (GEANT4) used by Muons, Inc., MICE Add GUI and space-charge effects 10) High Power RF couplers for the ILC (JLab, Bob Rimmer) 1.3 GHz RF needed for Muon Colliders or Neutrino Factories, but higher repetition rates will be required Start with innovative RF windows for ILC, other 1.3 GHz machines 11) Tunable RF Cavities for FFAGs (Fermilab, Milorad Popovic-NP) New RF cavity design for fast tuning over a wide frequency range Well-suited to an FFAG or FNAL Booster Muons, Inc.

MUTAC06: Muons, Inc. projects 15 Muons at Fermilab An implementation plan with affordable, incremental, independently-fundable, sequential, steps based on the SC PD Linac, each with HEP and Accelerator goals: An implementation plan with affordable, incremental, independently-fundable, sequential, steps based on the SC PD Linac, each with HEP and Accelerator goals: 1. attractive 6D Cooling experiment 2. triple-duty SC PD Linac (p’s, ’s, ILC string test) 3. intense stopping muon beams p accumulator/buncher, target, muon cooling 1. attractive 6D Cooling experiment 2. triple-duty SC PD Linac (p’s, ’s, ILC string test) 3. intense stopping muon beams p accumulator/buncher, target, muon cooling 4. exceptional neutrino factory (23 GeV) more cooling, recirculation, PDL upgrade, decay racetrack 5. Higgs factory (~300 GeV com) more cooling, RLA, coalescing & collider rings, IR 6. energy frontier muon collider(5 TeV com) more RLA, deep ring, IRs Muons, Inc.