Italiano

Shanghai Institute of Optics and Fine Mechanics has made significant breakthroughs in the study of laser damage performance of mid infrared anti reflective coatings

979
2025-04-07 17:28:35
Vedi traduzione

Recently, the Thin Film Optics Research and Development Center of the High Power Laser Component Technology and Engineering Department of the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, collaborated with researchers from Hunan University and Shanghai University of Technology to make new progress in the study of laser damage performance of mid infrared anti reflective coatings. The research team has developed a 6-layer mid infrared double-sided anti reflective film based on HfO2/SiO2 material on a quartz substrate by optimizing the preparation process, with a laser-induced damage threshold (LIDT) of 91.91 J/cm;. The related achievements were published in Infrared Physics&Technology under the title "The performance of laser induced damage of a 2-4 μ m mid frared anti reflective coating based on HfO2/SiO2 materials".

The surface reflection loss of infrared optical components is significant, and anti reflective films have become the key to improving device efficiency. Traditional infrared anti reflective film materials (such as fluoride and sulfide) have problems such as insufficient stability and easy water absorption, while oxide materials (such as HfO2/SiO2) have become a research hotspot due to their high melting point, high environmental stability, and high LIDT.


Figure 1 (a) Transmittance of the anti reflective film (b) Reflectance of the anti reflective film (c) LIDT test of the anti reflective film


A 6-layer HfO2/SiO2 film system structure with a total thickness of 2180nm was designed using electron beam evaporation (EB) and ion assisted deposition (EB-IAD) techniques. By comparing the two processes, it was found that ion assisted technology significantly optimized the quality of the film layer, and the EB-IAD process prepared the film layer with higher crystallinity, lower surface roughness, and significantly reduced water absorption. The laser damage threshold is increased, and the LIDT of EB-IAD anti reflective film under 2.097 μ m laser reaches 91.91 J/cm2, while the EB process only achieves 11.25 J/cm;. After analyzing the damage morphology, it was found that the EB anti reflective film was affected by the nanosecond thermal effect, resulting in larger and deeper damage points. The EB-IAD film layer was mainly ablated by plasma, with a smaller damage area and stronger interfacial adhesion. This study provides theoretical basis and process reference for the design and preparation of mid infrared anti reflective films. The research results are expected to be applied to the mid infrared nonlinear crystal ZnGeP2 and more mid infrared laser systems besides ZnGeP2 crystals, such as high-power laser processing, infrared imaging, optical communication and other fields, promoting the development of related industries.

Source: opticsky

Raccomandazioni correlate
  • NASA's laser reflector instrument helps to accurately locate Earth measurements

    The most famous use of GPS satellites is to help people understand their location, whether it is driving cars, ships or planes, or hiking in remote areas. Another important but little-known use is to distribute information to other Earth observation satellites to help them accurately locate measurements of our planet.NASA and several other federal agencies, including the US Space Force, the US Spa...

    2023-12-12
    Vedi traduzione
  • IPG Photonics has unveiled a new dual-beam laser with single-mode core power at the Novi Battery Show in Michigan

    IPG Photonics Corporation, a global leader in fiber laser technology, will highlight new and innovative laser solutions at the Battery Show from September 12 to 14, 2023 in Novi, Michigan, USA.The IPG booth will include industry-leading fiber laser sources and automated laser systems for electric vehicle battery welding applications.New laser technology pushes the limits of battery welding speedTo...

    2023-09-12
    Vedi traduzione
  • TRUMPF helps upgrade the automation of 3D laser processing for automotive thermoforming

    (Dechengen, Germany, March 24, 2025) - TRUMPF Group in Germany has now provided end customers with a fully automated one-stop solution for laser processing systems. With this solution, customers can not only shorten the production cycle, but also effectively reduce the cost of 3D laser material processing. Our laser equipment has excellent production efficiency. Now, through the automation upgrade...

    04-02
    Vedi traduzione
  • Lingke LP series industrial connectors provide fast, reliable, and efficient electrical connections for laser equipment

    Laser technology is currently a very mature technology and has been used on various laser equipment, such as laser cutting machines, laser projectors, medical laser equipment, etc. Advanced laser equipment requires high-performance and reliable industrial connectors to provide stable and safe power input and connection, which is one of the key links for the normal operation of laser equipment.Ling...

    2023-10-25
    Vedi traduzione
  • The Mysteries of Atmospheric Chemistry: Transient Absorption Spectroscopy Study Using FERGIE

    backgroundDr. Daniel Stone's research team from the University of Leeds in the UK is primarily focused on the study of oxidation reactions in the atmosphere and combustion processes. Dr. Stone is particularly interested in the chemical reaction processes of active substances that can control atmospheric composition and fuel combustion processes, such as hydroxide (OH), peroxide (HO2), and Crigee i...

    2024-03-06
    Vedi traduzione