X-Ray Multilayer Optic Development For Plasma Diagnostic And Source Enhancement

L. N. Koppel; E. D. Franco; J. A. Penkethman; B. Rodrigues

doi:10.1117/12.936620

12 August 1986 X-Ray Multilayer Optic Development For Plasma Diagnostic And Source Enhancement

L. N. Koppel, E. D. Franco, J. A. Penkethman, B. Rodrigues

Proceedings Volume 0691, X-Ray Imaging II; (1986) https://doi.org/10.1117/12.936620
Event: 30th Annual Technical Symposium, 1986, San Diego, United States

Abstract

The development of layered synthetic microstructure x-ray optic arrays to serve two distinct roles in high temperature plasma experimental research will be described. An optic array of large active area (500 cm2) provides the basis for a fusion product-immune x-ray imaging system (XIS) diagnostic that will be experimentally evaluated at the Princeton Plasma Physics Laboratory (PPPL) Tokamak Fusion Test Reactor (TFTR). The array is formed by end-to-end assembly of concave-cylindrical multilayer components along a parabolic trace. Our experience to date in the physics and engineering design of the array will be described.*

Citation Download Citation

L. N. Koppel, E. D. Franco, J. A. Penkethman, and B. Rodrigues "X-Ray Multilayer Optic Development For Plasma Diagnostic And Source Enhancement", Proc. SPIE 0691, X-Ray Imaging II, (12 August 1986); https://doi.org/10.1117/12.936620

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