WORLD
ESA to catch laser beam from Moon mission
Baku, June 23 (AZERTAC). In 2013, a NASA satellite will beam digital signals to an ESA receiving station fast enough to stream dozens of movies at once. The test will help to demonstrate the readiness of next-generation optical links for future data-intensive deep-space missions.
Even today’s highest-tech satellites still employ radio waves for communication back to ground stations on Earth, meaning that satellites require large and bulky antenna dishes.
But if all goes as planned next year, ESA will help to demonstrate that communication at optical wavelengths from ground to space and back is a mature – and very fast – technology and ready to be used in upcoming missions around Earth and in the Solar System.
The joint ESA/NASA activity is part of NASA’s Lunar Laser Communication Demonstration (LLCD) project, which will use a new optical terminal flying on NASA’s Lunar Atmosphere and Dust Environment Explorer – LADEE – spacecraft to communicate with a trio of stations on Earth.
“In 2001, the world’s first spacecraft-to-spacecraft laser communication demonstration was performed by ESA, and a second-generation laser communication system will be deployed in 2013 on Alphasat and, starting from 2015, on the European Data Relay Satellite system,” says Zoran Sodnik, manager for ESA’s Lunar Optical Communication Link project.
“Now, we want to confirm the effectiveness of laser communication from the Moon through Earth’s atmosphere to ground and back.
ESA’s Tenerife station will be equipped with upgraded pointing, acquisition and tracking equipment, since laser signals travel along a very narrow beam path and must be pointed very accurately, and with a novel optical receiver developed for the Agency by Switzerland’s RUAG Space.
The new optical receiver will be tested at a RUAG facility in January 2013 and installed at Tenerife next March. LADEE launch is planned for mid-2013, and the first laser link tests are scheduled about four weeks after lunar orbit entry.
“With our partners, we are developing optical space communication technology providing very high data rates using lasers weighing just a few kilograms and needing just a few watts of power,” says ESA’s Klaus-Juergen Schulz, Head of the Ground Station Systems Division.
“We aim to show that optical data communication working from ground through the atmosphere to space and back is ready to support future missions.”