Heterostructure Films of SiO2 and HfO2 for High-Power Laser Optics Prepared by Plasma-Enhanced Atomic Layer Deposition

Abstract: Absorption losses and laser-induced damage threshold (LIDT) are considered to be the major constraints for development of optical coatings for high-power laser optics. Such coatings require paramount properties, such as low losses due to optical absorption, high mechanical stability, and enhanced damage resistance, to withstand high-intensity laser pulses. In this work, heterostructures were developed by sub-nanometer thin films of SiO2 and HfO2 using the plasma-enhanced atomic layer deposition (PEALD) techniq… Show more

“…Optical coatings are extensively applied in optoelectronic systems, especially low-loss coatings, serving as critical components in laser gyroscopes [1] , high-power lasers [2] , gravitational wave detection [3,4] , lithography [5] , etc. The advancement of ultra-precision polishing technology and low-loss coating technology have made it possible to manufacture coated mirrors with loss ratio at ppm scale, such as high-reflectivity coated mirrors with reflectivity up to 99.99984% [6] .…”

A novel scheme of homologous differential transmissivity and reflectivity measurer

“…Optical coatings are extensively applied in optoelectronic systems, especially low-loss coatings, serving as critical components in laser gyroscopes [1] , high-power lasers [2] , gravitational wave detection [3,4] , lithography [5] , etc. The advancement of ultra-precision polishing technology and low-loss coating technology have made it possible to manufacture coated mirrors with loss ratio at ppm scale, such as high-reflectivity coated mirrors with reflectivity up to 99.99984% [6] .…”

A novel scheme of homologous differential transmissivity and reflectivity measurer

PEALD deposited aluminum hafnium mixed oxide dielectrics for amorphous-IGZO TFTs

Synergistic integration of plasmonic and perovskite nanosurfaces to create a multi-gas sensor for environmental monitoring