Result: Superconducting magnet system for muon beam cooling
Title:
Superconducting magnet system for muon beam cooling
Authors:
Source:
The 2006 applied superconductivity conference, Seattle, WA, August 27-September 1, 2006. Part II of three partsIEEE transactions on applied superconductivity. 17(2):1055-1058
Publisher Information:
New York, NY: Institute of Electrical and Electronics Engineers, 2007.
Publication Year:
2007
Physical Description:
print, 8 ref 2
Original Material:
INIST-CNRS
Subject Terms:
Electronics, Electronique, Electrical engineering, Electrotechnique, Sciences exactes et technologie, Exact sciences and technology, Sciences appliquees, Applied sciences, Electronique, Electronics, Electronique des semiconducteurs. Microélectronique. Optoélectronique. Dispositifs à l'état solide, Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices, Circuits intégrés, Integrated circuits, Conception. Technologies. Analyse fonctionnement. Essais, Design. Technologies. Operation analysis. Testing, Electrotechnique. Electroenergetique, Electrical engineering. Electrical power engineering, Matériel électrique divers, Various equipment and components, Electroaimants, Electromagnets, Aimant, Magnet, Imán, Electroaimant supraconducteur, Superconducting magnet, Electroimán supraconductor, Espace phase, Phase space, Espacio fase, Etude expérimentale, Experimental study, Estudio experimental, Gestion température packaging électronique, Thermal management (packaging), Ionisation, Ionization, Ionización, Optimisation, Optimization, Optimización, Perte énergie, Energy loss, Pérdida energía, Protection mécanique, Mechanical protection, Protección mecánica, Quantité mouvement, Momentum, Cantidad movimiento, Refroidissement, Cooling, Enfriamiento, Solénoïde, Solenoid, Solenoide, Système refroidissement, Cooling system, Sistema enfriamiento, Usine fabrication, Factory, Fábrica, Helical magnet, muon cooling, solenoid, super- conducting magnet
Document Type:
Conference
Conference Paper
File Description:
text
Language:
English
Author Affiliations:
Fermi National Accelerator Laboratory, Batavia, IL 60510, United States
Muons Inc, Batavia, IL 60510, United States
Muons Inc, Batavia, IL 60510, United States
ISSN:
1051-8223
Rights:
Copyright 2007 INIST-CNRS
CC BY 4.0
Sauf mention contraire ci-dessus, le contenu de cette notice bibliographique peut être utilisé dans le cadre d’une licence CC BY 4.0 Inist-CNRS / Unless otherwise stated above, the content of this bibliographic record may be used under a CC BY 4.0 licence by Inist-CNRS / A menos que se haya señalado antes, el contenido de este registro bibliográfico puede ser utilizado al amparo de una licencia CC BY 4.0 Inist-CNRS
CC BY 4.0
Sauf mention contraire ci-dessus, le contenu de cette notice bibliographique peut être utilisé dans le cadre d’une licence CC BY 4.0 Inist-CNRS / Unless otherwise stated above, the content of this bibliographic record may be used under a CC BY 4.0 licence by Inist-CNRS / A menos que se haya señalado antes, el contenido de este registro bibliográfico puede ser utilizado al amparo de una licencia CC BY 4.0 Inist-CNRS
Notes:
Electrical engineering. Electroenergetics
Electronics
Electronics
Accession Number:
edscal.19016436
Database:
PASCAL Archive
Further Information
A 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.