chanelink logo
CHANELINK
Polski

Coherent Company Announces the Launch of High Power Non Cooled G10 Pumped Laser Module for Submarine and Ground Applications

179
2024-03-23 10:21:42
Zobacz tłumaczenie

Coherent, a leading supplier of high-performance optical network solutions, announced today the launch of a new high-power non cooled pump laser module based on the latest G10 series semiconductor laser tube technology. These new modules are specifically developed for high reliability submarine applications as well as single chip and dual chip ground applications.

The new non cooled pump laser module is designed specifically for high-power, high-performance optical amplifiers and amplification ROADM line card applications. The non cooled pumped laser module adopts a compact 10 pin external size, which is market first:
Up to 1000 mW output power, suitable for submarine applications.
Up to 2x700 mW, providing both symmetric and asymmetric options on dual chip platforms.

These non cooling modules support the growth trend of energy-saving networks to achieve sustainable development goals. This reduces network ownership costs by reducing overall power consumption and eliminating many thermal and power management devices associated with traditional cooling lasers.

"The company released its first non cooled pump laser module in 2004 and its first dual chip module in 2011, making it a leader in non cooled and dual chip technologies," said Dr. Beck Mason, Executive Vice President of Telecommunications. Our latest G10 pump chip supports the successful development of our high-power non cooled pump laser modules. Combining a wide range of active and passive component product combinations, Coherent provides a leading solution portfolio for submarine and ground amplifier designers.

The certification work for the new single chip and dual chip ground modules will be completed by mid-2024. The samples have been launched and will begin mass production by the end of 2024.

Source: Laser Net

Powiązane rekomendacje

  • Using laser controlled filaments in vanadium dioxide to enhance neural morphology calculations

    In a new "Progress in Science" study, scientists from the University of Science and Technology of China have developed a dynamic network structure for neural morphology calculations using laser controlled conductive wires.Neuromorphic computing is an emerging research field that draws inspiration from the human brain to create efficient and intelligent computer systems. The core of neuromorphic co...

    2023-10-13
    Zobacz tłumaczenie

  • Chinese University of Science and Technology Reveals a New Physical Mechanism of Photoinduced Particle Rotation

    Light has angular momentum properties. Circularly polarized or elliptically polarized beams carry spin angular momentum (SAM), while beams with helical phase wavefronts carry orbital angular momentum (OAM). During the interaction between light and particles, the transfer of angular momentum can generate optical torque, driving particles to rotate. Among them, the transfer of optical spin angular m...

    2024-06-25
    Zobacz tłumaczenie

  • China has successfully developed the world's first 193 nanometer compact solid-state laser

    The Chinese Academy of Sciences reduced the volume of the deep ultraviolet laser by 90% and achieved 193 nm vortex beam output for the first time. Professor Xuan Hongwen described "loading truck equipment into the car trunk". This technology enables a 30% reduction in the size of lithography features, breaking through the bottleneck of the 2-nanometer process. In the next three years, laser power ...

    03-24
    Zobacz tłumaczenie

  • 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
    Zobacz tłumaczenie

  • Demonstrating broadband thermal imaging using superoptical technology in a new framework

    The research team used a new reverse design framework to demonstrate ultra optical broadband thermal imaging for applications ranging from consumer electronics to thermal sensing and night vision.The new framework, known as the "Modulation Transfer Function" project, solves the challenges related to broadband metaoptics by determining the functional relationship between image contrast and spatial ...

    2024-03-19
    Zobacz tłumaczenie