简体中文

NKT Photonics utilizes fiber lasers to achieve deep space communication links

867
2025-07-21 10:31:02
查看翻译

On July 7, the European Space Agency (ESA), established Europe’s first deep-space optical communication link with NASA’s Psyche mission using a high-power fiber laser system supplied by NKT Photonics, a subsidiary of Hamamatsu.
NKT’s announcement stated, “This achievement, conducted with NASA/JPL’s Deep Space Optical Communications (DSOC) demonstrator, marks a significant leap forward in high-data-rate communication across vast interplanetary distances.”


ESA’s multi-beam high-power fiber laser transmission system


The link is the result of collaboration between ESA, NASA/JPL, and a consortium of including NKT Photonics. The major technical challenges that were overcome have created a laser with enough power to be detected at extremely large distances, a pointing system with enough precision to aim accurately at the spacecraft an equally precise receiver system sensitive enough to detect the extremely faint return signals.

In collaboration with Swiss General Atomics Synopta, NKT Photonics supplied the multi-beam high-power fiber laser system, and the beam transmit system. The laser system emits a narrow-linewidth, modulated signal so that the distant spacecraft can precisely locate the ground station and lock onto it, establishing an optical link for high-speed data downlink.


ESA’s Ultima project


Located at the Kryoneri Observatory in Greece, the transmitter generates a multi-kilowatt beam capable of detection by the DSOC flight transceiver onboard the Psyche spacecraft, currently 265 million km distant, en route to the metal-rich 16 Psyche asteroid.

Laser system
The core of the laser system is based on NKT Photonics’ Koheras single-frequency fiber laser platform. The base for the configuration is an Acoustik line card sub-rack housing the Basik Y10 seed laser, a Boostik pre-amplifier as well as both AOM and EOM line cards used for spectral pre-conditioning and high frequency amplitude modulation. A splitter sends the signal to the five Boostik UHP high power amplifiers to bring the power up to the kW level needed to reach the spacecraft.

The bespoke amplifiers are based on NKT Photonics’ core fiber amplifier technology, also used in their directed energy activities but modified to enable high speed power modulation from 0 to 2 kW in less than 10 µs. Finally, a bespoke timing module line card provides all the timing and synchronization waveforms for the various beacon and data-uplink scenarios including the modem interface.

The beam transmit system’s precision allows it to point with arcsecond precision to the spacecraft, enabling both a beacon for accurate downlink and the potential to uplink data, providing a glimpse into the future of deep space communication.

Mike Yarrow, Senior Engineering Manager at NKT Photonics, said, “Our expertise in fiber laser technology has allowed us to contribute to a system that pushes the boundaries of what’s possible in free space optical communications. This project not only showcases our ability to deliver unprecedented power and precision to meet our customers’ stringent requirements but also reinforces our commitment to forging successful collaborations and advancing knowledge to benefit society as a whole.”

Source: optics.org

相关推荐
  • Redefining the Future of Sensing: In depth Study of Novel Plasma Waveguide Structures

    Imagine in such a world, the detection of trace substances is not only fast, but also incredibly accurate, indicating a new era of technological progress in health, safety, and environmental monitoring. Due to pioneering research on plasma waveguide structures, this vision is becoming increasingly realistic, aimed at enhancing refractive index sensing and spectral filtering. This innovative method...

    2024-03-04
    查看翻译
  • Huashu High tech launches a large format 12 laser metal 3D printer at TCT Asia

    Chinese industrial 3D printer manufacturer Huashu High tech has launched the FS811M metal powder bed fusion series platform. The FS811M series has a construction volume of 840 x 840 x 960 millimeters and can be equipped with powerful 6, 8, 10, or 12 x 500 watt fiber lasers."As the latest member of the Huashu High tech Metal 3D printer product portfolio, FS811M originates from our joint innovation ...

    2024-05-13
    查看翻译
  • Application of Laser Welding Technology in Ceramic Substrate Industry

     Ultra short laser pulses for local welding (Source: Fraunhofer IOF)With the accelerated evolution of electronic devices towards high power, high frequency, and miniaturization, ceramic substrates have become core materials in fields such as power semiconductors, 5G communications, and new energy vehicles due to their excellent thermal conductivity, insulation, and high temperature resistance. H...

    03-17
    查看翻译
  • Excitation of nanostructures with two near-infrared lasers to increase emission intensity

    Recently, researchers from the Ultrafast Phenomena Laboratory at the University of Warsaw in Poland, in collaboration with a team from the Institute of Low Temperature and Structural Studies at the Polish Academy of Sciences, discovered an enhanced effect on upconversion nanoparticle emission. Relevant personnel have demonstrated that simultaneously exciting these nanostructures with two near-infr...

    09-28
    查看翻译
  • More penetrating than X-rays μ Meson imaging is expected to be advanced with high-power lasers

    μ Mesons are naturally occurring subatomic particles that can penetrate much deeper dense matter than X-rays. Therefore, μ Meson imaging can enable scientists to capture images of nuclear reactors, volcanoes, tsunamis, and hurricanes. However, this process is slow, as it occurs naturally μ The low flux of mesons requires several months of exposure time for the image.It is understood that ...

    2023-11-01
    查看翻译