Europa mission lost in space budget

Prometheus extinguished
The most recent debacle in the pursuit to explore Europa was the NASA Prometheus effort — making use a nuclear reactor to power a set of ion thruster engines. A first flight mission was dubbed the Jupiter Icy Moon Orbiter — JIMO for short.

JIMO was to search for evidence of global subsurface oceans on Jupiter’s three icy Galilean moons: Europa, Ganymede, and Callisto. The mission was ballyhooed as setting the stage for the next phase of exploring Jupiter and opening the rest of the outer solar system to detailed exploration.

The fire was extinguished on Prometheus. It flamed out, given budget and technical stresses.

NASA Administrator Mike Griffin, told a U.S. Senate subcommittee in May 2005 that JIMO was, in his opinion, “too ambitious to be attempted.”

Griffin said JIMO “was not a mission, in my judgment, that was well-formed,” and the mission’s original purpose was to execute a scientific mission to Europa, “which is extremely interesting on a scientific basis,” he told lawmakers.

“It remains a very high priority, and you may look forward, in the next year or so, maybe even sooner, to a proposal for a Europa mission as part of our science line,” Griffin testified. “But we would not — we would, again, not — favor linking that to a nuclear propulsion system.”

Free video Nuclear power in space Learn how a nuclear-powered propulsion system would have been used on the Jupiter Icy Moons Orbiter. NASA

A fresh look at a Europa mission based on existing technologies is deserved, suggested Torrence Johnson, chief scientist for the Solar System Exploration Programs Directorate at the Jet Propulsion Laboratory in Pasadena, Calif.

Johnson said that using the technology developed during past work on a Europa Orbiter, as well as the JIMO studies, helps justify going forward on plotting out a new Europa mission.

“We have continued to study what can be done with existing technology to make a viable Europa mission with a great data return possible,” Johnson told Space.com. He noted that his personal and professional opinions on the matter are his own and do not, in any way reflect the opinion or policy of JPL.

Astrobiology potential
Robert Pappalardo, assistant professor in the University of Colorado at Boulder’s Department of Astrophysical and Planetary Sciences and Laboratory for Atmospheric and Space Physics, said the outer-planets community of scientists has stamped priority “No. 1” on exploring Europa. A leading look at a spacecraft for that mission is tagged the Europa Explorer. Imbued with radiation hardening technology for a longer stay-time in orbit around Europa, as well as Earth-to-Europa trajectory pluses, a mission to this moon is far more compelling now than in previous times, he said.

“We’ve spent quite a bit of time and effort trying to understand was Mars once a habitable environment. Europa today, probably, is a habitable environment,” Pappalardo advised. “We need to confirm this … but Europa, potentially, has all the ingredients for life … and not just 4 billion years ago … but today.”

A nuclear-powered Europa Explorer would be loaded with scientific gear.

For example, the Europa orbiting spacecraft could be outfitted with ice-penetrating radar to detect shallow water, or partial melt. If the moon’s icy face is thin, or thin in spots, that radar could possibly penetrate through the ice to an ocean.

Also onboard would be a camera system, infrared sensor hardware, as well as equipment to discern the crunching, cracking, creaking and overall strength of Europa’s ice shell — to help validate that the moon really does have a global liquid water ocean, Pappalardo explained.

One additional payload on Europa Explorer: a simple lander.

Pappalardo said a lander is still being bandied about, but carrying what kind of technology and at what cost are questions awaiting answers.

“We’re not going to search for life with this mission. But just like the Mars rovers in their search for habitable environments … we’re going to characterize the habitability of Europa,” Pappalardo said.

An orbiter to the moon of Jupiter would allow a now-sketchy view to become sharp as to how this world works, Pappalardo concluded. This mission, he said, has compelling science and broad community support and “we’re ready to go.”

Works in progress
While NASA’s new budget carries dire news, there are other works-in-progress in terms of Jupiter and the study of Europa.

In June of last year, NASA announced that a mission to fly to Jupiter will proceed to a preliminary design phase. That program is called Juno, and it is the second in NASA's New Frontiers Program — of which the New Horizons mission, now en route to Pluto, is the first example. Juno would conduct a first-time, in-depth study of the planet Jupiter. It must be ready for launch no later than June 30, 2010, within a mission cost cap of $700 million.

Also, the European Space Agency is currently studying the Jovian Minisat Explorer, or JME. The JME focuses on exploration of the Jovian system and particularly the exploration of its moon Europa. The ESA study is also looking into deploying a compact microprobe onto Europa to perform on-the-spot measurement of the moon’s ice crust.

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