Radiation Damage Studies with Hadrons on Materials and Electronics

Allen, J.; Anderson, Scott D.; Spencer, J.E.; Wolf, Z.; Boussoufi, M.; Pellett, D.

doi:10.2172/827322

2004

DOI: 10.2172/827322

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Radiation Damage Studies with Hadrons on Materials and Electronics

J. Allen¹,

Scott D. Anderson²,

J.E. Spencer

et al.

Abstract: Many materials and electronics need to be tested for the radiation environment expected at linear colliders (LC) where the accelerator and detectors will be subjected to large fluences of hadrons, leptons and γ's over their life[1]. Examples are NdFeB magnets considered for the damping rings and final focus, electronic and electro-optical devices to be utilized in detector readout and accelerator controls and CCDs required for the vertex detector. Effects of γ's on many materials have been presented[2] and our… Show more

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Cited by 4 publications

References 7 publications

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Design considerations and performance of a PM linear actuator in a radiation environment

Mohammad

Booth

Hodgson

et al. 2008

4th IET International Conference on Power Electronics, Machines and Drives (PEMD 2008)

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This paper discusses design considerations for a water cooled high acceleration 3-phase air-cored brushless DC PM linear actuator used in a vacuum radiation environment. Radiation can cause damage to magnets, and the requirement for a vacuum chamber around the moving parts imposes additional constraints that further complicate the electromagnetic and mechanical design of the actuator. This paper discusses the selection of suitable materials and bearings that are compatible with operation in vacuum and can cope with the required millions of actuation cycles. The selection of suitable bearings with low friction and wear is discussed and the design of a low inertia shaft is described. The factors that have an influence on the susceptibility of the magnets to radiation damage are discussed. These factors include magnet dimensions, magnet material, external magnetic field, temperature and the directions of both the magnetic flux and radiation. FLUKA simulations are presented showing the fluences of protons, neutrons, electrons and gamma radiation to which the magnets are exposed.Based on these simulations, loss of magnetisation for different magnet materials can be predicted, and used to estimate the effect of magnet radiation ageing on actuator current, and increased temperature rise. The paper also presents transient electromagnet FEA computation of the force produced by the actuator when magnets are housed in a stainless steel vacuum chamber.

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Design considerations and performance of a PM linear actuator in a radiation environment

Mohammad

Booth

Hodgson

et al. 2008

4th IET International Conference on Power Electronics, Machines and Drives (PEMD 2008)

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show abstract

Fast Neutron Damage Studies on NDFEB Materials

Anderson

Spencer

Wolf

et al.

Proceedings of the 2005 Particle Accelerator Conference

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Many materials and electronics need to be tested for the radiation environment expected at linear colliders (LC) since both accelerator and detectors will be subjected to large fluences of hadrons, leptons and γ's over the life of the facility [1]. While the linacs will be superconducting, there are still many uses for NdFeB in the damping rings, injection and extraction lines and final focus. Our understanding of the situation for rare earth, permanent magnet materials was presented at PAC03 [2]. Our first measurements of fast neutron, stepped doses at the UC Davis McClellan Nuclear Reactor Center (UCD MNRC) were presented at EPAC04 [3]. We have extended the doses, included other manufacturer's samples, and measured induced radioactivities which are discussed in detail.

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Fast neutron radioactivity and damage studies on materials

Anderson

Spencer

Wolf

et al. 2007

2007 IEEE Particle Accelerator Conference (PAC)

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Many materials and electronics need to be tested for the radiation environment expected at linear colliders (LCs) to improve reliability and longevity since both accelerator and detectors will be subjected to large fluences of hadrons, leptons and gammas. Examples include NdFeB magnets, considered for the damping rings, injection and extraction lines and final focus; electronic, electro-and fiber-optics to be utilized in detector readout, accelerator controls and the CCDs required for the vertex detector; as well as high and low temperature superconducting materials (LTSMs) for cavities and some magnets. Our first measurements of fast neutron, stepped doses at the UC Davis McClellan Nuclear Reactor Center (UCD MNRC) were for NdFeB materials at EPAC04 [1]. We have extended the doses, included more manufacturer's samples and measured radioactivities. We also added L and HTSMs and various semiconductor and electro-optic materials such as photonic band-gap (PBG) fiber that we studied previously with gamma rays.

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Radiation Damage Studies with Hadrons on Materials and Electronics

Cited by 4 publications

References 7 publications

Design considerations and performance of a PM linear actuator in a radiation environment

Design considerations and performance of a PM linear actuator in a radiation environment

Fast Neutron Damage Studies on NDFEB Materials

Fast neutron radioactivity and damage studies on materials

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