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Muon Colliders have unique technical and physics advantages and disadvantages when compared with both hadron and electron machines. They should thus be regarded as complementary. Parameters are given of 4 TeV and 0.5 TeV high luminosity…

acc-phys · Physics 2012-08-29 R. B. Palmer , A. Sessler , A. Skrinsky , A. Tollestrup

Muon Colliders have unique technical and physics advantages and disadvantages when compared with both hadron and electron machines. They should thus be regarded as complementary. Parameters are given of 4 TeV and 0.5 TeV high luminosity…

Muon storage rings have been proposed for use as sources of intense high-energy neutrino beams and as the basis for muon colliders. Phase-space compression (cooling) of the muon beam prior to acceleration and storage is needed to optimise…

High Energy Physics - Experiment · Physics 2008-11-26 P. Drumm

Muon storage rings have been proposed for use as a source of high-energy neutrino beams (the Neutrino Factory) and as the basis for a high-energy lepton-antilepton collider (the Muon Collider). The Neutrino Factory is widely believed to be…

Accelerator Physics · Physics 2007-07-16 D. M. Kaplan , K. Long

A muon collider would be a powerful tool for exploring the energy-frontier with leptons, and would complement the studies now under way at the LHC. Such a device would offer several important benefits. Muons, like electrons, are point…

Accelerator Physics · Physics 2011-09-15 Michael S. Zisman

We demonstrated sympathetic cooling of a single ion in a buffer gas of ultracold atoms with small mass. Efficient collisional cooling was realized by suppressing collision-induced heating. We attempt to explain the experimental results with…

Atomic Physics · Physics 2018-02-07 Shinsuke Haze , Mizuki Sasakawa , Ryoichi Saito , Ryosuke Nakai , Takashi Mukaiyama

Muons are elementary particles and provide cleaner collision events that can explore higher energies compared to composite particles like protons. Muons are also far heavier than their electron cousins, meaning that they emit less…

High Energy Physics - Experiment · Physics 2025-04-15 Diktys Stratakis

We describe the current status of the research within the Muon Collaboration towards realizing a Neutrino Factory. We describe briefly the physics motivation behind the neutrino factory approach to studying neutrino oscillations and the…

High Energy Physics - Experiment · Physics 2009-09-29 Rajendran Raja

Muon colliders have a great potential for high-energy physics. They can offer collisions of point-like particles at very high energies, since muons can be accelerated in a ring without limitation from synchrotron radiation. However, the…

In this work we present a molecular dynamics simulation of a FFM experiment. The tip-sample interaction is studied by varying the normal force in the tip and the temperature of the surface. The friction force, cA, at zero load and the…

Computational Physics · Physics 2015-06-26 R. A. Dias , M. Rapini , P. Z. Coura , B. V. Costa

We describe the physics opportunities and technical challenges of a muon collider as a tool for exploring high energy physics phenomena.

Accelerator Physics · Physics 2007-05-23 Bruce J. King

A high-energy muon collider scenario require a "final cooling" system that reduces transverse emittance by a factor of ~10 while allowing longitudinal emittance increase. The baseline approach has low-energy transverse cooling within…

Accelerator Physics · Physics 2017-08-02 David Neuffer , Hisham Sayed , Terry Hart , Don Summers

A high-energy muon collider scenario requires a "final cooling" system that reduces transverse emittance by a factor of ~10 while allowing longitudinal emittance increase. The baseline approach has low-energy transverse cooling within…

Accelerator Physics · Physics 2015-02-11 David Neuffer

We outline in detail a staging scenario for realizing the Neutrino Factory and the Muon Collider. As a first stage we envisage building an intense proton source that can be used to perform high intensity conventional neutrino beam…

High Energy Physics - Experiment · Physics 2019-08-17 Rajendran Raja , D. Cline , J. Gallardo , S. Geer , D. Kaplan , K. McDonald , R. Palmer , A. Sessler , A. N. Skrinsky , D. Summers , M. Tigner , A. Tollestrup , J. Wurtele , M. Zisman

Collisions with cold particles can dissipate the energy of a hot particle and therefore be exploited as a cooling mechanism. Kinetics teaches us that for a particle to be cooled down by several orders of magnitude, it will typically take…

Atomic Physics · Physics 2021-08-11 Amir Mahdian , Artjom Krükow , Johannes Hecker Denschlag

Starting from elementary concepts, muon-beam cooling is defined, and the techniques by which it can be accomplished introduced and briefly discussed.

Accelerator Physics · Physics 2008-11-26 Daniel M. Kaplan

An intense beam of muons is needed to provide a luminosity on the order of 10$^{34}$ cm$^{-2}$s$^{-1}$ for a multi-TeV collider. Because muons produced by colliding a multi-MW proton beam with a target made of carbon or mercury have a large…

In the final cooling stages for a muon collider, the transverse emittances are reduced while the longitudinal emittance is allowed to increase. In previous studies, Final cooling used absorbers within very high field solenoids to cool…

Accelerator Physics · Physics 2024-08-26 D. Fu , A. Badea. K. Folan Di Petrillo , D. Neuffer , D. Stratakis

The Muon Ionization Cooling Experiment (MICE) collaboration seeks to demonstrate the feasibility of ionization cooling, the technique by which it is proposed to cool the muon beam at a future neutrino factory or muon collider. The emittance…

Accelerator Physics · Physics 2019-03-27 The MICE Collaboration , D. Adams , D. Adey , R. Asfandiyarov , G. Barber , A. de Bari , R. Bayes , V. Bayliss , R. Bertoni , V. Blackmore , A. Blondel , J. Boehm , M. Bogomilov , M. Bonesini , C. N. Booth , D. Bowring , S. Boyd , T. W. Bradshaw , A. D. Bross , C. Brown , L. Coney , G. Charnley , G. T. Chatzitheodoridis , F. Chignoli , M. Chung , D. Cline , J. H. Cobb , D. Colling , N. Collomb , P. Cooke , M. Courthold , L. M. Cremaldi , A. DeMello , A. J. Dick , A. Dobbs , P. Dornan , F. Drielsma , K. Dumbell , M. Ellis , F. Filthaut , P. Franchini , B. Freemire , A. Gallagher , R. Gamet , R. B. S. Gardener , S. Gourlay , A. Grant , J. R. Greis , S. Griffiths , P. Hanlet , G. G. Hanson , T. Hartnett , C. Heidt , P. Hodgson , C. Hunt , S. Ishimoto , D. Jokovic , P. B. Jurj , D. M. Kaplan , Y. Karadzhov , A. Klier , Y. Kuno , A. Kurup , P. Kyberd , J-B. Lagrange , J. Langlands , W. Lau , D. Li , Z. Li , A. Liu , K. Long , T. Lord , C. Macwaters , D. Maletic , B. Martlew , J. Martyniak , R. Mazza , S. Middleton , T. A. Mohayai , A. Moss , A. Muir , I. Mullacrane , J. J. Nebrensky , D. Neuffer , A. Nichols , J. C. Nugent , A. Oates , D. Orestano , E. Overton , P. Owens , V. Palladino , M. Palmer , J. Pasternak , V. Pec , C. Pidcott , M. Popovic , R. Preece , S. Prestemon , D. Rajaram , S. Ricciardi , M. Robinson , C. Rogers , K. Ronald , P. Rubinov , H. Sakamoto , D. A. Sanders , A. Sato , M. Savic , P. Snopok , P. J. Smith , F. J. P. Soler , Y. Song , T. Stanley , G. Stokes , V. Suezaki , D. J. Summers , C. K. Sung , J. Tang , J. Tarrant , I. Taylor , L. Tortora , Y. Torun , R. Tsenov , M. Tucker , M. A. Uchida , S. Virostek , G. Vankova-Kirilova , P. Warburton , S. Wilbur , A. Wilson , H. Witte , C. White , C. G. Whyte , X. Yang , A. R. Young , M. Zisman