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Europa Clipper High Gain Antenna Undergoes Testing at Langley

A full-scale prototype of the Europa Clipper's high-gain antenna is undergoing testing in Langley's Experimental Test Range
A full-scale prototype of the Europa Clipper’s high-gain antenna is undergoing testing in the Experimental Test Range at NASA’s Langley Research Center in Hampton, Virginia. The Europa Clipper is expected to launch on a mission to conduct detailed reconnaissance of Jupiter’s moon Europa in the 2020s. Credits: NASA/David C. Bowman

It probably goes without saying, but this isn’t your everyday satellite dish.

In fact, it’s not a satellite dish at all. It’s a high-gain antenna (HGA), and a future version of it will send and receive signals to and from Earth from a looping orbit around Jupiter.

The antenna will take that long journey aboard Europa Clipper, a spacecraft that will conduct detailed reconnaissance of Jupiter’s moon Europa to see whether the icy orb could harbor conditions suitable for life. Scientists believe there’s a massive salty ocean beneath Europa’s icy surface. The antenna will beam back high-resolution images and scientific data from Europa Clipper’s cameras and science instruments.

The full-scale prototype antenna, which at 10 feet tall is the same height as a standard basketball hoop, is in the Experimental Test Range (ETR) at NASA’s Langley Research Center in Hampton, Virginia. Researchers from NASA’s Jet Propulsion Laboratory in Pasadena, California, the Johns Hopkins University Applied Physics Laboratory in Laurel, Maryland, and Langley are testing the prototype in the ETR in order to assess its performance and demonstrate the high pointing accuracies required for the Europa Clipper mission.

The ETR is an indoor electromagnetic test facility that allows researchers to characterize transmitters, receivers, antennae, and other electromagnetic components and subsystems in a scientifically controlled environment. 

“Several years ago we scoured the country to find a facility that was capable of making the difficult measurements that would be required on the HGA and found that the ETR clearly was it,” said Thomas Magner, assistant project manager for Europa Clipper at the Applied Physics Laboratory. “The measurements that will be performed in the ETR will demonstrate that the Europa Clipper mission can get a large volume of scientific data back to Earth and ultimately determine the habitability of Europa.”

Tests on this prototype antenna are scheduled to wrap up soon; however, researchers plan to return to the Experimental Test Range in 2020 to conduct acceptance tests on Europa Clipper’s high-gain antenna flight article. Europa Clipper plans to launch in the 2020s, with travel time to Jupiter of 3 to 7 years depending on the launch vehicle and which planetary alignments can be utilized.

“Our branch members are excited that these key test activities, achieved through specialized facility modifications and enhancements made to the ETR these past few years, are significantly contributing towards the ultimate success of the Europa Clipper. ETR has become a new NASA capability in space-based communications system research with its extended frequency range from X-band to Ka-band,” said Charmaine Franck, head of Langley’s Electromagnetics and Sensors Branch.

JPL manages the Europa Clipper mission for NASA’s Science Mission Directorate. The multiple-flyby concept was developed in partnership with the Applied Physics Laboratory.

Joe Atkinson
NASA Langley Research Center