MIT Lincoln Laboratory helps celebrate the official unveiling of the Space Surveillance Telescope

On 12 October 2011, the completion of construction of the Defense Advanced Research Projects Agency's Space Surveillance Telescope (SST) was celebrated with a ribbon-cutting ceremony at the SST's location on the White Sands Missile Range in New Mexico. MIT Lincoln Laboratory has been responsible for the development of critical technologies for the SST as well as integration of the entire SST system.

On 15 February 2011, the SST achieved first light, and to the gratification of the researchers involved in the nine-year development, this first acquisition of an astronomical image was accomplished on the first try—a feat almost unheard of for optical systems of the SST's scale.

Ribbon-cutting ceremony for the SSTCutting the ribbon to "inaugurate" the Space Surveillance Telescope (SST) are, left to right, Dr. Eric Evans, director of MIT Lincoln Laboratory; General William Shelton, Commander of Air Force Space Command, and Dr. Regina Dugan, director of the Defense Advanced Research Projects Agency, which sponsored the development of the SST. At the podium is Dr. Grant Stokes, head of the Aerospace Division, which led the Lincoln Laboratory effort to develop technologies to enable the SST's unique space surveillance capabilities.

The SST, developed under sponsorship of the Defense Advanced Research Projects Agency (DARPA), is a ground-based electro-optical space surveillance system whose innovative design allows rapid, wide-area scanning of the sky and provides enhanced sensitivity for detecting faint objects in deep space. The unique curved charge-coupled device technology integrated into a very large pixel count camera and the high-speed shutter, both developed at Lincoln Laboratory, enable the SST's exceptional capabilities.

"SST is the first comprehensive technology push for the nation in deep-space optical tracking since GEODSS [the Ground-based Electro-optical Deep Space Surveillance system at White Sands] in the 1980s—this will be a game changer," says Dr. Eric Pearce, associate leader of the Space Control Systems Group and manager responsible for the Laboratory's SST program.

The SST can be used to expand the catalog of objects in the geosynchronous region and other high-interest areas of space, via wide-area search operations, providing scientists with a more complete picture of potential hazards to satellites. In addition, the SST may be used to accomplish astronomical surveys of stars, comets, and minor planets.

Following the DARPA demonstration period, the SST will be transferred for operational evaluation and for use as a contributing sensor to the Space Surveillance Network.

Posted January 2012

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