chanelink logo
CHANELINK
한국어

Alliance unit Radiant High Tech Blue Purple Laser Assists in Ocean Exploration

698
2023-11-06 16:48:16
번역 보기

The ocean covers over 71% of the Earth's surface, and so far humans have only explored about 5% of the ocean. This means that there are still 95% of the depths of the ocean that we know nothing about, making it the most mysterious and unknown place on our planet.

600 years ago, Zheng He led a fleet to play the prelude to the era of great navigation, laying the foundation for us to understand the world and the ocean. Today, 600 years later, our curiosity about the depths of the ocean has accelerated the pace of scientific research.

Recently, the LTH/LTB series - blue purple multi wavelength laser independently developed by Ra Chuang High Tech has output wavelengths including 375nm, 405nm, 425nm, 450nm, and other wavelengths. It has high beam quality, high power, high stability, and dynamically adjustable power. It has implemented long-distance and high-power lighting in the deep sea bottom, and combined with imaging systems for fluorescence detection of seabed sediments. The detection results have been highly recognized by experts.

It is reported that blue and purple light with wavelengths ranging from 375nm to 450nm have lower attenuation rates in the ocean compared to other wavelengths. At the same energy, it can achieve long-distance detection and stimulate fluorescence spectra. At the same time, due to the small size, high sealing requirements, low energy consumption, and long working hours of underwater operation equipment, laser light sources can meet the above technical requirements, making it the optimal lighting source choice for underwater exploration.

Source: Alliance unit Radiant Technology

관련 추천

  • Shanghai Institute of Optics and Fine Mechanics has made progress in the field of high-intensity laser cracking of high-density polyethylene

    Recently, a team from the National Key Laboratory of Ultra strong Laser Science and Technology at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, collaborated with the Arctic University of Norway (UiT) to make progress in the efficient cracking of high-density polyethylene (HDPE) using strong laser molecular bond breaking technology. The research results were publ...

    06-16
    번역 보기

  • Lumibird signs a 20 million euro contract to provide laser rangefinders for airborne defense applications

    Recently, European laser technology leader Lumibird announced the signing of a major contract to provide laser rangefinders for airborne defense applications.The contract is worth approximately 20 million euros, adding to Lumibird's existing business in laser rangefinders. It covers the supply of over 100 laser rangefinders over a three-year period starting from the third quarter of 2024, as well ...

    2023-10-01
    번역 보기

  • Shanghai Optics and Machinery Institute has made progress in femtosecond fiber lasers based on twisted Sagnac interferometer mode locking

    Recently, the research team of the Aerospace Laser Technology and System Department of the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, proposed a torsional Sagnac interferometer and applied it to the fiber laser system, realizing mode locking self starting and pulse shaping. The relevant research achievements were published in the Journal of Lightwave Technology u...

    2024-04-22
    번역 보기

  • HSG Laser launches new generation laser solutions

    HSG Laser unveiled its next-generation laser cutting solutions—the GH V2.0 high-power flatbed system and TS2 intelligent tube cutting machine—at its Düsseldorf showroom, marking a major milestone in its European market expansion. (Image: HSG Laser)Attended by customers and partners from across the continent, the event featured live demonstrations of both systems and highlighted HSG’s growing i...

    06-27
    번역 보기

  • New photonic nanocavities open up new fields of optical confinement

    In a significant leap in quantum nanophotonics, a team of European and Israeli physicists introduced a new type of polarized cavity and redefined the limits of light confinement. This groundbreaking work was detailed in a study published yesterday in Natural Materials, showcasing an unconventional photon confinement method that overcomes the traditional limitations of nanophotonics.For a long time...

    2024-02-12
    번역 보기