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2 results

  • A nodule dome removal strategy to improve the laser-induced damage threshold of coatings

  • Tianbao Liu, Meiping Zhu, Wenyun Du, Jun Shi, Jian Sun, Yingjie Chai, Jianda Shao
  • Journal:
    High Power Laser Science and Engineering / Volume 10 / 2022
    Published online by Cambridge University Press:
    12 September 2022, e30
    • Article
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  • Various coatings in high-power laser facilities suffer from laser damage due to nodule defects. We propose a nodule dome removal (NDR) strategy to eliminate unwanted localized electric-field (E-field) enhancement caused by nodule defects, thereby improving the laser-induced damage threshold (LIDT) of laser coatings. It is theoretically demonstrated that the proposed NDR strategy can reduce the localized E-field enhancement of nodules in mirror coatings, polarizer coatings and beam splitter coatings. An ultraviolet (UV) mirror coating is experimentally demonstrated using the NDR strategy. The LIDT is improved to about 1.9 and 2.2 times for the UV mirror coating without artificial nodules and the UV mirror coating with artificial nodule seeds with a diameter of 1000 nm, respectively. The NDR strategy, applicable to coatings prepared by different deposition methods, improves the LIDT of laser coating without affecting other properties, such as the spectrum, stress and surface roughness, indicating its broad applicability in high-LIDT laser coatings.

  • 9 - Experimental Metrics for ASAT

  • from Core Section
  • Thomas F. Kelly, Brian P. Gorman, Colorado School of Mines, Simon P. Ringer, University of Sydney
  • Book:
    Atomic-Scale Analytical Tomography
    Published online:
    03 March 2022
    Print publication:
    24 March 2022, pp 160-198

  • Summary

    We proposed in Chapter 5 that a combination of STEM and APT is the most likely method through which ASAT could be achieved, using either APT-centric atomic positioning or STEM-centric atom positioning. The approaches laid out are expected to achieve ASAT at some level, but we cannot expect absolute perfection since all experimental techniques have limitations. Limitations may be due either to the underlying physics (physical) or due to the technology available (technical). It is important to consider these limitations to understand where improvements might be made if limited primarily by the technology (technical). This chapter explores the most significant of these potential limitations using both APT- and STEM-centric atom positioning methods. Changes to experimental best practices as well as forward-looking advances in hardware and software are needed in order to achieve ASAT.