chanelink logo
CHANELINK
简体中文

Scientists use glass to create femtosecond lasers

136
2023-09-28 17:12:33
查看翻译

Image source: Federal Institute of Technology in Lausanne, Switzerland

 

Science and Technology Daily, Beijing, September 27th (Reporter Zhang Jiaxin) Commercial femtosecond lasers are manufactured by placing optical components and their mounting bases on a substrate, which requires strict alignment of optical components. So, is it possible to manufacture femtosecond lasers entirely from glass? According to the latest issue of Optics magazine, scientists at the Federal Institute of Technology in Lausanne, Switzerland have successfully achieved this, with lasers no larger than credit cards and easier to align.

Researchers stated that due to the lower thermal expansion of glass compared to traditional substrates, it is a stable material. Therefore, they chose glass as the substrate and used commercial femtosecond lasers to etch special grooves on the glass to accurately place the basic components of the laser. Even in precision manufacturing at the micron level, the grooves and components themselves are not precise enough to achieve laser quality alignment. In other words, the reflector is not fully aligned, so at this stage, their glass device cannot be used as a laser.

So, researchers further designed etching to position a mirror in a groove with micro mechanical bending, which can locally twist the mirror when irradiated by femtosecond laser. By aligning the mirror in this way, they ultimately created a stable, small-scale femtosecond laser.

Despite its small size, the peak power of the laser is about 1 kilowatt, and the time to emit pulses is less than 200 femtoseconds, which is so short that light cannot pass through human hair.

This method of permanently aligning free space optical components through laser material interaction can be extended to various optical circuits, with extreme alignment resolutions as low as sub nanometer level.

 

Reprinted from:LDWORLD

相关推荐

  • BYD and Huagong Technology deepen strategic cooperation and exchange

    Recently, BYD Semiconductor Division held discussions and exchanges with Huagong Technology High Tech Company and Laser Company, opening a new chapter of strategic cooperation.Chen Gang, General Manager of BYD Semiconductor Division, Nie Bo, Party Committee Member and General Manager of Huagong High Tech, Wang Jiangang, Party Committee Member, Deputy General Manager of Huagong Laser, and General M...

    2024-12-11
    查看翻译

  • Polish and Taiwan, China scientists are committed to new 3D printing dental implants

    Researchers from Wroclaw University of Technology and Taipei University of Technology in China are developing dental implants made from 3D printed ceramic structures connected to metal cores. Due to the use of biodegradable magnesium, bone tissue will gradually grow into such implants."The result will be a composite implant that can replace human teeth. Its scaffold is made of aluminum oxide...

    2024-04-17
    查看翻译

  • A new type of all-optical intelligent spectrometer

    Recently, Professor Xu Tingfa's research team from the School of Optoelectronics at Beijing Institute of Technology and Assistant Professor Lin Xing's team from Tsinghua University jointly developed a new type of Opto Intelligence Spectrometer (OIS). The device is based on diffractive neural network technology and achieves precise spectral reconstruction under spatially coherent or spatially incoh...

    2024-07-22
    查看翻译

  • The estimated output value of the LiDAR market in 2029 is expected to reach 5.352 billion US dollars

    Market research firm TrendForce Consulting released an industry insight report today, stating that currently LiDAR is mainly used in the automotive market for passenger cars and unmanned taxis, while in the industrial market it supports applications such as robotics, factory automation, and logistics.The report points out that driven by Level 3 and more advanced auto drive system system and logist...

    01-22
    查看翻译

  • Scientists decipher the code for extending the lifespan of perovskite solar technology

    The latest research led by the University of Surrey shows that alumina (Al2O3) nanoparticles can significantly enhance the lifespan and stability of perovskite solar cells, extending the service life of such high-efficiency energy devices tenfold.Although perovskite solar cells have advantages such as low cost and light weight compared to traditional silicon-based technologies, their commercial po...

    03-03
    查看翻译