Josh Dinner
NASA is using lasers to evolve how the agency communicates between spacecraft.
In the past, the space agency has relied on radio signals beamed through its Deep Space Network to transmit any sort of scientific data from deep space probes back to Earth. Lasers, however, have the ability to vastly increase the amount of data spacecraft are able to send, and NASA is ready to send the technology around the moon.
NASA is including laser communications in the form of the Orion Artemis 2 Optical Communications System (O2O) terminal on Artemis 2, the next crewed mission around the moon. "Onboard the Orion capsule, the O2O system will send back high-resolution images and video from the lunar region," a NASA video published in April states. If all goes according to plan, the system should enable viewers on Earth to see the moon in real-time like never before.
An illustration of the Orion Artemis 2 Optical Communications System in action. (Image credit: NASA)
Imagine having dial-up internet for years, then upgrading to gigabit fiber optic speeds. That's essentially what NASA is hoping to accomplish for its future spacecraft.
To lay the groundwork for future laser communications, NASA has launched several demonstration satellites in recent years. The Laser Communication Relay Demonstration (LCRD) launched in December 2021 was the agency's first laser relay. That was followed by the TeraByte InfraRed Delivery (TBIRD) CubeSat launched last year, which reached data transmission rates of 200 gigabits per second.
Now, NASA is preparing the Integrated LCRD Low-Earth-Orbit (LEO) User Modem and Amplifier Terminal (ILLUMA-T), which is expected to launch to the International Space Station (ISS) later this year. ILLUMA-T will attach to the exposed facility on the Japanese Experiment Module.
Once operational, ILLUMA-T will relay data back to Earth through LCRD in NASA's first end-to-end laser relay communications system, laying the groundwork for the O2O system that will be aboard Orion during Artemis 2.
An illustration showing how a variety of satellites, the International Space Station and ground stations will work together as a part of NASA's ILLUMA-T experiment. (Image credit: NASA)
Still, as NASA notes in its recent video, these experiments are "only the start of how laser communications are paving the way for advancing our scientific discoveries."
The success of Artemis 1 last year has put Artemis 2 on an imminent path to launch, which will fly the first astronauts to the moon since 1972. Images from the cameras mounted to Orion captivated the world during the spacecraft's first mission to lunar orbit and back.
With a crew onboard for Artemis 2, NASA expects to transmit not just high resolution images, but video as well. If all goes according to plan with these laser communications experiments, we can expect to see plenty of live or nearly live crew updates with the gorgeous background of the lunar surface visible in Orion's windows.
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