Polski

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

972
2025-04-07 17:28:35
Zobacz tłumaczenie

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

Powiązane rekomendacje
  • TRUMPF will launch a fully automatic laser drilling machine for interconnected manufacturing equipped with a 6-kilowatt fiber laser

    TRUMPF introduced its TruMatic 5000 manufacturing unit and new SheetMaster automatic loading and unloading device technology at the 2023 Blechexpo Metal Plate Processing Exhibition in Stuttgart, Germany.Users of the new system will benefit from fully automatic laser cutting, punching, and forming capabilities. The new SheetMaster device can achieve fully automated material flow within the manufact...

    2023-10-23
    Zobacz tłumaczenie
  • Micro ring resonators with enormous potential: hybrid devices significantly improve laser technology

    The team from the Photonic Systems Laboratory at the Federal Institute of Technology in Lausanne has developed a chip level laser source that can improve the performance of semiconductor lasers while generating shorter wavelengths.This groundbreaking work, led by Professor Camille Br è s and postdoctoral researcher Marco Clementi from the Federal Institute of Technology in Lausanne, represe...

    2023-12-11
    Zobacz tłumaczenie
  • Composite two-dimensional materials for fiber lasers demonstrate the prospects of ultra fast optical applications

    The formation of dissipative solitons is influenced by various factors, such as spectral filtering effect and Kerr nonlinearity effect. This interaction leads to the possibility of mode locking on a large range of parameters, generating pulses with completely different types and evolution from conventional physical laws and optical properties, tolerating higher nonlinear effects, and effectively a...

    2023-09-21
    Zobacz tłumaczenie
  • How Many Laser Enterprises are There in China?

     China's laser industry began in the 1980s, when the first private laser enterprise, Chutian Industrial Laser, was founded in 1985 by Sun Wen, an alumnus of Huazhong University of Science and Technology. In the 1990s, some young people with dreams began to make their mark in the laser industry. In 1995, Gao Yunfeng, 29, rented an apartment in Huaqiangbei with a deposit of 400,000 Hong Kong dollar...

    06-30
    Zobacz tłumaczenie
  • Three core processes of laser soldering support the development of PCB electronics industry

    In the field of modern electronic manufacturing, PCB (printed circuit board) serves as the carrier of electronic components. In its manufacturing process, laser soldering technology has become a key link in PCB electronic manufacturing due to its advantages of high precision, high efficiency, and low thermal impact. This article will explore the application of laser soldering technology and its ma...

    2024-04-15
    Zobacz tłumaczenie