JPL Designs Antenna for Future Europa Lander Mission

takyon writes:

No Antenna Could Survive Europa's Brutal, Radioactive Environment-Until Now

Ultimately, when NASA's Jet Propulsion Laboratory (JPL), where I am a senior antenna engineer, began to seriously consider a Europa lander mission, we realized that the antenna was the limiting factor. The antenna needs to maintain a direct-to-Earth link across more than 550 million miles (900 million km) when Earth and Jupiter are at their point of greatest separation. The antenna must be radiation-hardened enough to survive an onslaught of ionizing particles from Jupiter, and it cannot be so heavy or so large that it would imperil the lander during takeoff and landing. One colleague, when we laid out the challenge in front of us, called it impossible. We built such an antenna anyway-and although it was designed for Europa, it is a revolutionary enough design that we're already successfully implementing it in future missions for other destinations in the solar system.

[...] I've mentioned previously that the antenna will need to transmit signals up to 900 million km. As a general rule, less efficient antennas need a larger surface area to transmit farther. But as the lander won't have an orbiter overhead with a large relay antenna, and it won't be big enough itself for a large antenna, it needs a small antenna with a transmission efficiency of 80 percent or higher-much more efficient than most space-bound antennas.

So, to reiterate the challenge: The antenna cannot be large, because then the lander will be too heavy. It cannot be inefficient for the same reason, because requiring more power would necessitate bulky power systems instead. And it needs to survive exposure to a brutal amount of radiation from Jupiter. This last point requires that the antenna must be mostly, if not entirely, made out of metal, because metals are more resistant to ionizing radiation.

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