chanelink logo
CHANELINK
한국어

Juguang Technology launches miniaturized high-power semiconductor laser stack GS09 and GA03

485
2023-12-15 14:13:47
번역 보기

In today's technology field, Juguang Technology released two highly anticipated high-power semiconductor lasers on December 13th: GS09 and GA03. These two products are leading the innovation wave in the laser industry with their miniaturized design, excellent thermal management capabilities, and extensive customization flexibility.

GS09 revolutionizes chip spacing by compressing the width of the stacked light emitting region from 0.73mm to 0.43mm, supporting up to 10 bar of chip count and achieving an astonishing 1000W peak power output. And GA03 has made a breakthrough in size by significantly reducing the width from 18.2mm to 7.45mm, maintaining a single bar output power of about 200W and supporting laser peak output of up to 6000W.

GA03 optimizes the conduction structure to efficiently transfer heat from the chip to the cooling water channel, maintaining the same output power while extending the product's lifespan. Both products have achieved a sustained lifespan test of 10 ^ 9 pulses, providing users with a more reliable user experience.

These two products have excellent flexibility and can freely customize the number of bars and output power according to customer needs, suitable for various application fields. GA03 has been successfully applied in the high-power semiconductor laser side pump module SP series of solid-state lasers (DPSSL), demonstrating a peak pump power output of up to 5000W and excellent performance indicators, thus winning the 2023 Innovation Award.

The emergence of these two lasers will inject new vitality into the technology field, helping users achieve product designs with smaller sizes and higher power output, while reducing costs and bringing more efficient solutions to the photon application field. At this moment, Juguang Technology once again proves its leading position and determination to continuously innovate in the field of laser technology.

Source: Laser Net

관련 추천

  • Laser cladding method improves the surface performance of parts

    Laser cladding, also known as laser metal deposition, is a process of depositing one material onto another.When the laser beam scans the target surface, metal powder or wire flow is fed into the molten pool formed by the laser beam, thereby producing the required material coating.The laser cladding method improves the surface properties of the parts, such as wear resistance, and allows for the rep...

    2023-12-28
    번역 보기

  • Breakthrough in Silicon Based Room Temperature Continuous Wave Topological Dirac Vortex Microcavity Laser

    With the explosive growth of data traffic, the market is extremely eager for hybrid photonic integrated circuits that can combine various optical components on a single chip.Silicon is an excellent material for photonic integrated circuits (PICs), but achieving high-performance laser sources in silicon still poses challenges. The monolithic integration of III-V quantum dot (QD) lasers on silicon i...

    2023-10-26
    번역 보기

  • Laser communication is expected to completely change optical links

    Laser technology is becoming a game changer in the field of satellite communication (SATCOM), capable of creating ultra secure networks that can transmit large amounts of data at unprecedented speeds through satellite networks and constellations.With continuous progress, the industry is ready for growth and collaboration, seizing the untapped potential of disconnected populations. The ability to h...

    2023-09-20
    번역 보기

  • Researchers treated MXene electrodes with lasers to improve lithium-ion battery performance

    Researchers at King Abdullah University of Science and Technology (KAUST) in Saudi Arabia have found that laser scribing or creating nanodots on battery electrodes can improve their storage capacity and stability. The method can be applied to an alternative electrode material called MXene.Lithium-ion batteries have multiple drawbacks in a wide range of applications, and researchers around ...

    2023-08-04
    번역 보기

  • Aerosol jet printing can completely change the manufacturing of microfluidic devices

    Surface acoustic wave technology is renowned for its high precision and fast driving, which is crucial for microfluidics and affects a wide range of research fields. However, traditional manufacturing methods are time-consuming, complex, and require expensive cleanroom facilities.A new method overcomes these limitations by utilizing aerosol jet printing to create customized equipment with various ...

    2024-02-02
    번역 보기