A. Robinson
University of Wisconsin-Madison
5 Papers
6 Citations
A. Robinson is an academic researcher from University of Wisconsin-Madison. The author has contributed to research in topics: Divertor & Doppler effect. The author has an hindex of 2, co-authored 4 publications.
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Papers
W-Based Alloys for Advanced Divertor Designs: Options and Environmental Impact of State-of-the-Art Alloys
TL;DR: In this paper, the development of radiation resistant materials to sustain the harsh fusion environment represents a challenging task for divertor designers, and advanced physics simulations of the fusion environment have been conducted.
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Activation and Radiation Damage Characteristics of W-Based Divertor of ARIES Power Plants
TL;DR: In this paper, five key W alloys were examined for the advanced divertor design of ARIES-ACT -the latest ARIES tokamak design, and the most promising alloys appeared to be W-1.1TiC and W-La2O3.
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Rhenium and molybdenum coatings for dendritic tungsten armors of plasma facing components: Concept, problems, and solutions
TL;DR: In this paper, the authors examined the waste disposal rating associated with the activation of thin coatings of Re and Mo on the ARIES-ACT W-based divertor and concluded that Re coatings must be limited to fewer than 30μm in order to classify the Re/W-based Divertor as low-level waste (LLW).
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Rigorous Evaluation of Biological Dose for Fusion Systems and Comparison with Approximate Contact Dose Approach
TL;DR: In this article, the adjoint method was evaluated with the delayed gammas from induced activation in the forward or adjoint mode at selected radial locations of ARIES-CS, and then compared to the contact dose rate of the nearest component to determine the accuracy of the approximate contact dose method.
The Impulse Approximation Scattering Function and Its Use in Monte Carlo Photon Transport Simulations
A. Robinson,D. Henderson,L. J. Kersting +2 more
TL;DR: In this paper , the authors explored the feasibility of using the impulse approximation scattering function in Monte Carlo photon transport simulations and derived a new photon Doppler broadening method, which is referred as the consistent DOB-broadening method.