Preliminary Design of a Digital Holography PFC Erosion Diagnostic for MPEX

C.E. (Tommy) Thomas Jr.; T.M. Biewer; G.C. Shaw; Larry Baylor; S.K. Combs; S.J. Meitner; Juergen Rapp; D.L. Hillis; E.M. Granstedt; R. Majeski; Robert Kaita

Preliminary Design of a Digital Holography PFC Erosion Diagnostic for MPEX

POSTER

Abstract

Preliminary design of a Digital Holography (DH) in-situ Plasma Facing Component (PFC) erosion diagnostic to be used on the proto-MPEX/MPEX experiment is presented. Design trade-offs are discussed including the selection of CO2 laser frequencies and whether/where to use reflective or refractive optical components. The costs and benefits of using a high-speed (expensive) infrared (IR) camera or a lower speed (inexpensive) IR camera, and whether to use simultaneous or sequential acquisition of DH exposures for the dual wavelength system are also described. Expected layout, resolution, and noise figures will be discussed, along with resolution and noise data from previous work at ORNL and PPPL.

Authors

C.E. (Tommy) Thomas Jr.

Third Dimension Technologies LLC
T.M. Biewer

Oak Ridge National Laboratory, Oak Ridge National Lab., Oak Ridge High School, Windsor Central High School, ORNL
G.C. Shaw

Oak Ridge National Laboratory
Larry Baylor

Oak Ridge National Laboratory, Oak Ridge National Lab
S.K. Combs

Oak Ridge National Laboratory
S.J. Meitner

Oak Ridge National Laboratory
Juergen Rapp

Oak Ridge National Laboratory
D.L. Hillis

Oak Ridge National Laboratory, ORNL
E.M. Granstedt

Tri-Alpha Energy Inc.
R. Majeski

Princeton Plasma Physics Laboratory, PPPL, Princeton Plasma Physics Laboratory (PPPL)
Robert Kaita

Princeton Plasma Physics Laboratory, Princeton Plasma Physics Laboratory (PPPL), PPPL