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Diamond Radiator Machining and Characterization

This study explores the machining and characterization of diamond radiators, utilizing advanced techniques such as X-ray rocking curves and 3D Zygo imaging. Authors Brendan Pratt, Fridah Mokaya, Alex Barnes, and Richard Jones from the University of Connecticut detail the measurements of top surfaces, approximate bottom surface depths, and the effects of vapor ion etching and laser ablation on burn-through regions. The findings provide insights into the precision and performance of diamond radiator manufacturing critical for various applications.

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Diamond Radiator Machining and Characterization

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  1. Diamond Radiator Machining and Characterization Brendan Pratt, Fridahmokaya, alexbarnes, Richard jones University of connecticut

  2. CHESS X-ray Rocking Curves: U40 40µm window

  3. 3D Zygo Imaging: U40 top surface measurements with Zygo approximate bottom surface depth, Zygo measurement on next slide Thinned “picture framed” window

  4. CHESS X-ray Rocking Curves: UConn-B CHESS X-ray Rocking Curves: UConn-C

  5. CHESS X-ray Rocking Curves: S40 Vapor Ion Etching Burn-Through Region CHESS X-ray Rocking Curves: S90

  6. CHESS X-ray Rocking Curves: S150 Laser Ablation Burn-Through Region

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