Add to ORKGSuperconducting magnets are often proposed to confine plasma in fusion reactors. Superconducting material enables the magnets to carry current densities that would melt materials with non-zero resistance. Quench occurs when superconductivity is lost and the current starts to generate heat. Unless prevented with a fast enough control system, the heat generated during a quench can cause catastrophic damage to the coils. This work describes a less-studied heating mechanism that increases the likelihood and aggressiveness of fusion magnet quenches. Defects accumulate in the magnet structural material under irradiation by the fusion process. The defects store energy in the material and change thermal and normal state electrical properties. Wigne...
The electrical integrity of superconducting magnets that go through a resistive transition (quench) ...
The application of superconducting materials in the field of high energy accelerator physics not onl...
Computer models are used to simulate both localized and extensive thermal excursions in a large supe...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering...
The maximum obtainable magnetic induction of accelerator magnets, relying on normal conducting cable...
Loss of the superconducting state, namely quench, is a dangerous event for superconducting magnets. ...
Superconducting wires are a key enabling technology for generating electricity from fusion reactions...
Superconducting magnets are believed to be necessary for fusion power reactors. High flux levels of ...
One of the biggest issues in the design of a superconducting magnet is to be able to protect the mag...
Tokamaks aim at producing energy by thermonuclear fusion heating a hydrogen plasma up to 150 million...
A quench, the transition of a conductor from the superconducting to the normal conducting state, occ...
Superconducting magnets are supplied with a few kA of electric current and can store a large amount ...
The superconducting magnet operates in conditions of complex electromagnetics, which could cause hys...
In any fusion system utilizing magnetic fields, electrical energy is stored in these fields during t...
Plasma disruptions are a catastrophic loss of confinement that ultimately concludes with the release...
The electrical integrity of superconducting magnets that go through a resistive transition (quench) ...
The application of superconducting materials in the field of high energy accelerator physics not onl...
Computer models are used to simulate both localized and extensive thermal excursions in a large supe...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering...
The maximum obtainable magnetic induction of accelerator magnets, relying on normal conducting cable...
Loss of the superconducting state, namely quench, is a dangerous event for superconducting magnets. ...
Superconducting wires are a key enabling technology for generating electricity from fusion reactions...
Superconducting magnets are believed to be necessary for fusion power reactors. High flux levels of ...
One of the biggest issues in the design of a superconducting magnet is to be able to protect the mag...
Tokamaks aim at producing energy by thermonuclear fusion heating a hydrogen plasma up to 150 million...
A quench, the transition of a conductor from the superconducting to the normal conducting state, occ...
Superconducting magnets are supplied with a few kA of electric current and can store a large amount ...
The superconducting magnet operates in conditions of complex electromagnetics, which could cause hys...
In any fusion system utilizing magnetic fields, electrical energy is stored in these fields during t...
Plasma disruptions are a catastrophic loss of confinement that ultimately concludes with the release...
The electrical integrity of superconducting magnets that go through a resistive transition (quench) ...
The application of superconducting materials in the field of high energy accelerator physics not onl...
Computer models are used to simulate both localized and extensive thermal excursions in a large supe...