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New laser communications system arrives at NASA for Artemis 2 moon mission

New laser communications system arrives at NASA for Artemis 2 moon mission_649aee1d45da0.jpeg

NASA’s new moon spacecraft is getting a next-generation communication system.

The Orion capsule undergoing preparations for the crewed Artemis 2 moon mission at NASA’s Kennedy Space Center (KSC) in Florida recently received an essential piece of mission hardware.

A laser communication module, called the Artemis 2 Optical Communications System (O2O), was delivered to KSC for integration with Orion ahead of the round-the-moon Artemis 2 mission, which is expected to launch near the end of 2024. O2O uses laser technology to beam messages with data rates far greater than conventional radio transmissions and will vastly improve the speed and types of data transfers that the Artemis 2 astronauts can send back to Earth.

Related: Meet the 4 astronauts flying on NASA’s Artemis 2 moon mission

O2O was developed at NASA’s Goddard Space Flight Center in Maryland, with help from the Massachusetts Institute of Technology’s (MIT) Lincoln Laboratory. The project was funded under NASA’s Space Communications and Navigation (SCaN) program, which has completed successful laser communication demonstrations on multiple missions, including the Laser Communications Relay Demonstration (LCRD) in 2021 and the TeraByte InfraRed Delivery (TBIRD) mission in 2022. In addition, SCaN is sending the Integrated LCRD Low-Earth-Orbit User Modem and Amplifier Terminal (ILLUMA-T) laser communication relay to the International Space Station (ISS) later this year.

“At 260 megabits per second, O2O is capable of sending down 4K high-definition video from the moon,” O2O project manager Steve Horowitz said in a June 13 NASA statement.

O2O will enable Artemis 2 astronauts to share their lunar journey with Earth in a new and unprecedented way. And the laser communications system will handle more than just the pictures and videos from crewmembers. It will be embedded in Orion’s system infrastructure.

“O2O will transmit and receive procedures, pictures, flight plans, and be a link between Orion and mission control on Earth,” Horowitz said.

For the Artemis 2 mission, two ground stations were chosen in Las Cruces, New Mexico, and Table Mountain, California, to receive Orion’s O2O data transmissions. Both locations were selected for their preponderance of clear skies. Excessive cloud coverage, NASA said, can affect the quality of laser communication data transmittance.

The successful demonstration of O2O on Orion during Artemis 2 could help the technology make its way into many more aspects of spaceflight, and enable a streamlined communications infrastructure on NASA’s future missions to the moon and beyond, agency officials said.

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