chanelink logo
CHANELINK
Tiếng Việt

Outlook - Future of miniaturized lasers

878
2023-12-19 18:10:39
Xem bản dịch

The disruptive miniaturization design of fiber lasers is feeding back into the handheld laser welding market. The handheld laser welding that enters the trunk is bathed in the luster of black technology, making traditional argon arc welding and electric welding tremble.

In the early years, argon arc welding was the most commonly used thin plate welding method among our ancestors, but its drawbacks were also very obvious. The welding threshold was high, the efficiency was low, and the subsequent polishing and polishing were complex. Especially, the strong arc radiation generated was harmful to the operator's health. With the launch of miniaturized fiber lasers, the handheld laser welding market has also experienced explosive growth, and now this market has begun to take shape.

 

In the field of industrial lasers, the importance of miniaturization trends in fiber lasers is beyond doubt. We are also well aware that miniaturization has always been a turning point in every technological advancement, such as in mobile phones, computers, and semiconductors. I believe that miniaturization will also be a necessary path for the advancement of lasers. With smaller size and higher integration, it means greater portability, richer application scenarios, and greater benefits for end users.

Imagine what kind of impact the palm sized high-energy laser on Iron Man's arm would have on the entire laser manufacturing industry and even the entire technology field? To what extent will laser weapons, cutting machines, and handheld welding machines evolve? Nowadays, semiconductors and computers continue to evolve towards miniaturization. Who dares to assert that miniaturization and lightweighting of lasers are meaningless? Looking forward to breakthroughs in laser technology bringing dividends to many fields, and the future of the laser industry is promising!

Đề xuất liên quan

  • High sensitivity visualization of ultrafast carrier diffusion using a wide field holographic microscope

    A sketch of the imaging and holographic parts of a transient holographic microscope, including a pulse sequence, to illustrate the signal modulation method. By imaging the pinhole array at the sample position, a diffraction limited excitation spot array can be created, allowing for the simultaneous collection of transient data around 100 excitation spots.Femtosecond transient microscopy is an impo...

    2023-12-25
    Xem bản dịch

  • Two photon absorption quantum mechanism breaks through the resolution and efficiency limits of optical nanoprinting

    Recently, a research team from the School of Physics and Optoelectronic Engineering at Jinan University has elucidated for the first time the time-dependent quantum mechanism of two-photon absorption and proposed a two-photon absorption (fpTPA) optical nanoprinting technology based on few photon irradiation, successfully breaking through the bottleneck of traditional two-photon printing technology...

    03-06
    Xem bản dịch

  • Artists transform paper into meticulous laser cutting designs

    In the past few years, paper artists have demonstrated the versatility of their common fiber materials. Some people manually cut or carve paper, while others combine traditional craftsmanship with digital design. Ibbini Studio is in this situation. Abu Dhabi artist Julia Ibni collaborated with computer scientist Stephen Noye to create sculptural paper works inspired by decorative patterns such as ...

    2024-01-23
    Xem bản dịch

  • New LiDAR can 'see' faces from hundreds of meters away

    At a distance of 325 meters, the human eye may only be able to distinguish between a person's head and body, making it difficult to discern any other differences. But a research team including Heriot Watt University in the UK and Massachusetts Institute of Technology in the US has developed a new type of LiDAR scanner that can perform detailed analysis of a person's face from such a distance and c...

    02-11
    Xem bản dịch

  • The University of Illinois combines the light emitted by multiple VCSEL into a single coherent mode

    Today, VCSELs (vertical cavity surface-emitting lasers) are used in everything from computer mice to face-scanning hardware in smart phones. They are renowned for their ability to integrate seamlessly into semiconductor chips, VCSELs are still considered to be an active field of research, and many researchers believe there are still important applications waiting to be discovered.The laboratory of...

    08-04
    Xem bản dịch