Rohan Senanayake scite author profile

Abstract-The focusing solenoids for MICE surround energy absorbers that are used to reduce the transverse momentum of the muon beam that is being cooled within MICE. The focusing solenoids will have a warm-bore diameter of 470 mm. Within this bore is a flask of liquid hydrogen or a room temperature beryllium absorber. The focusing solenoid consists of two coils wound with a copper matrix Nb-Ti conductor originally designed for MRI magnets. The two coils have separate leads, so that they may be operated at the same polarity or at opposite polarity. The focusing magnet is designed so that it can be cooled with a pair of 1.5 W (at 4.2 K) coolers. The MICE cooling channel has three focusing magnets with their absorbers. The three focusing magnets will be hooked together in series for a circuit stored-energy of about 9.0 MJ. Quench protection for the focusing magnets is discussed. This report presents the mechanical and thermal design parameters for this magnet, including the results of finite element calculations of mechanical forces and heat flow in the magnet cold mass.

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Micron-scale laser-wire scanner for the KEK Accelerator Test Facility extraction line

Boogert

Blair

Boorman

et al. 2010

Phys. Rev. ST Accel. Beams

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A laser-wire transverse electron beam size measurement system has been constructed and operated at the Accelerator Test Facility (ATF) extraction line at KEK. The construction of the system is described in detail along with the environment of the ATF related to the laser wire. A special set of electron beam optics was developed to generate an approximately 1 m vertical focus at the laser-wire location. The results of our operation at the ATF extraction line are presented, where a minimum rms electron beam size of 4:8 AE 0:3 m was measured, and smaller electron beam sizes can be measured by developing the method further. The beam size at the laser-wire location was changed using quadrupoles and the resulting electron beam size measured, and vertical emittance extracted.

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The Cold Mass Support System and the Helium Cooling System for the MICE Focusing Solenoid

Yang

Green

Lau

et al. 2007

IEEE Trans. Appl. Supercond.

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A mathematical modelling of Abrasive Waterjet Machining on Ti-6Al-4V using Artificial Neural Network

Selvan

Midhunchakkaravarthy

Senanayake

et al. 2020

Materials Today: Proceedings

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