한국어

Ruisheng Clyde Aerospace Company Commercializes TNO's Satellite Communication Laser Terminal

856
2024-05-24 14:09:09
번역 보기

AAC Clyde Space, a small satellite technology multinational company headquartered in Uppsala, Sweden, has obtained the right to manufacture and distribute laser satellite communication terminals using the optical technology of the Dutch research institution TNO.

TNO's technology helps to transmit satellite generated data to Earth through lasers, with the potential to achieve high speed and security in broadband connections, surpassing traditional radio frequency communication methods.

In addition, the Dutch company FSO Instruments is a supplier of terminal core optical components, which also originate from TNO's research. This arrangement may help establish an international supply chain for laser satellite communication terminals.

TNO Space Director Kees Buyjsrogge commented, "This new collaboration highlights our commitment to accelerating technology transfer, promoting the growth of Dutch optical satellite communication capabilities, and strengthening strong networks within Europe and NATO.".

The new agreement grants Raytheon Clyde Aerospace the right to use TNO laser communication terminal technology for 20 years. These terminal sizes are 10 x 10 x 10 centimeters, suitable for small satellites that AAC Clyde Space excels at. Their goal is to manufacture a commercially viable laser communication terminal for small satellites that can be mass-produced.

In order to fully develop AAC terminals, Clyde Space requires additional optical technology, FSO instruments will provide these technologies. FSO Instruments has recently signed a similar licensing agreement to leverage TNO's technology and expertise in optical heads, optical workbenches, and coarse pointing alignment systems.

By cross licensing TNO's optical technology, it has established a supply chain for producing small satellite communication terminals, which is pioneering in the Netherlands.

Operation mode
Laser satellite communication provides links between ground stations, satellites, aircraft, and drones. Using the infrared band, laser communication can achieve data transmission speeds that are 100 to 1000 times faster than radio frequencies currently used for communication. In addition, laser communication links are considered safer because they use very narrow optical laser beams instead of wide radio signals.

Luis Gomes, CEO of Raytheon Clyde Aerospace, said, "The advancement of high data volume payloads (such as Earth observation payloads for cube satellites and small satellites) highlights the necessity of improving downlink capabilities in small sizes. The global demand for laser satellite communication applications is on the rise. Through this collaboration, we can not only leverage this demand but also strengthen the international reputation of the Netherlands in innovative new space solutions.".

Source: Laser Net

관련 추천
  • Q.ANT Secures $18 Million in Refinancing for Photonic AI

    Q.ANT, a developer of artificial intelligence and high-performance computing (HPC) photonic processing systems, announced the completion of the second round of its Series A financing, reportedly valued at $18 million. The investment was led by Duquesne Family Office LLC, the investment firm of Stanley F. Druckenmiller. The increase brings Q.ANT’s total funding to US$80 M – claimed to be the larges...

    17시간 전
    번역 보기
  • Semiconductor lasers will support both TE and TM modes

    Typically, for lasers in optical communication systems, waveguide designs are used to achieve a single transverse mode. By adjusting the thickness of the surrounding area of the cladding layer and the etching depth of the ridge in the ridge waveguide device, a single mode device can be obtained. The importance of lasers is reflected in the following aspects:A chip without ridge waveguide design an...

    2023-10-20
    번역 보기
  • Lumibird, a well-known French optoelectronics company, increased its lidar production capacity by 16% year-on-year and was boosted by strong market demand

    On July 24, Lumibird, a well-known French optoelectronics company, released its latest semi-annual report. In the first half of the year, Lumibird's revenues were 97.2 million euros, up 16 percent from the same period last year. Of this, the Optoelectronics division contributed 45.9 million euros and the remaining 51.3 million euros came from its medical division. In the second quarter (Q2) ended ...

    2023-08-04
    번역 보기
  • Innovative laser technology: a novel quantum cavity model for superradiance emission

    Quantum optics is a complex field where theoretical and experimental physicists collaborate to achieve breakthroughs in explaining subatomic level phenomena.Recently, Farokh Mivehvar from the University of Innsbruck used the most comprehensive model in quantum optics, the Dicke model, to study the interaction between two groups of atoms in a quantized field. This new study makes it possible to obs...

    2024-03-16
    번역 보기
  • The world's most powerful laser attempts to unravel the secrets of the universe

    They are the strongest lasers in history, and their beams are helping scientists explore the structure of the universe.In a research laboratory at the University of Michigan, bright green light fills the vacuum chamber of a technology giant. It is the size of two tennis courts. The walls are shielded with 60 centimeters of concrete to prevent radiation leakage, and workers wear masks and hairnets ...

    2023-11-28
    번역 보기