Home Latest News Long journey to Europa, an icy moon of Jupiter, begins for ASU-built...

Long journey to Europa, an icy moon of Jupiter, begins for ASU-built camera – EurekAlert

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image: E-THEMIS lead scientist Philip Christensen stands next to the box-like "tent" that surrounds both E-THEMIS (left) and its optical test equipment. With the tent doors closed and sealed, the team can flood the tent with dry nitrogen gas to remove all water vapor inside. This lets engineers accurately test E-THEMIS' thermal sensitivity, which water vapor greatly interferes with. view more 
Credit: Charlie Leight/ASU News
After months of testing, an ASU-designed and -built instrument to measure the surface temperature of a moon of Jupiter has arrived at NASA's Jet Propulsion Laboratory in Southern California. There it will join eight other instruments and become an integral part of the agency's Europa Clipper spacecraft.
The instrument is the Europa Thermal Emission Imaging System [LINK] (E-THEMIS) led by Regents Professor Philip Christensen of Arizona State University’s School of Earth and Space Exploration.
The Europa Clipper is a robotic spacecraft sent to investigate Jupiter's ice-shrouded moon Europa. It is planned to launch on a SpaceX Falcon Heavy [LINK] rocket in October 2024 and arrive at Jupiter in April 2030 after making flybys of Mars in 2025 and Earth in 2026. These planetary flybys use the masses of Mars and Earth to boost the spacecraft's velocity so it can reach the Jupiter system.
After entering orbit at Jupiter, the spacecraft will make about 50 flybys of Europa to investigate whether the moon could harbor conditions suitable for life.
E-THEMIS is an infrared camera designed to map temperatures across Europa’s surface. Its images, taken in three heat-sensitive bands, will help scientists find clues about Europa’s geological activity, including regions where the moon's presumed ocean may lie near the surface. Although Europa is slightly smaller than Earth's moon, scientists think its ocean may hold twice the volume of Earth's oceans.
“Europa's surface is an extremely cold shell of ice, but the ocean below is liquid water," Christensen says. "E-THEMIS can see warmer regions, whether caused by impacts, convection or liquid water lying much closer to the surface than the ocean."
Even if many years have passed, he says, "The ice will still be warm. From these temperature images, E-THEMIS will give us an excellent opportunity to study the geologic activity of Europa."
Besides identifying any warm areas on Europa's surface, E-THEMIS images will also help scientists determine the physical state of the icy surface. As parts of Europa's landscape cool after local sunset, areas of solid ice will stay warmer longer, while those with a granular texture will lose heat more rapidly. By mapping the rates of cooling across the surface, scientists will better understand Europa’s small-scale properties. This technique might even help to identify sites for a possible future lander.
Measuring solar warmth
To check out the instrument's optics and sensors, in January 2022 the ASU team took test images with the E-THEMIS camera from the rooftop of the Interdisciplinary Science and Technology Building 4 (ISTB4) on ASU's Tempe campus. The images show Sun Devil Stadium and “A” Mountain, among other local landmarks.
The instrument worked perfectly, with E-THEMIS making temperature-sensing images at midday, in late afternoon and after sunset. As designed, these clearly revealed how the temperature of the buildings and landscape responded to changes in sunlight as the day progressed, and they show the features cooling after sunset.
Surviving a rough neighborhood
When Europa Clipper arrives at Jupiter, it will encounter an extremely harsh environment. The giant planet poses major difficulties for any spacecraft operating in its vicinity. First, it's cold out there because Jupiter orbits more than five times farther from the sun than Earth, and sunlight has less than 4% the strength it has at Earth. But the biggest problems come from Jupiter's severe radiation environment.
The most massive planet in the solar system, and rotating more than twice every 24 hours, Jupiter spins out a large and powerful magnetic field. This creates a zone of trapped radiation around the planet similar to the Van Allen radiation belts around Earth, but thousands of times stronger. Europa Clipper must fly through this radiation zone again and again over the course of its mission.
Greg Mehall is the lead project engineer for E-THEMIS. He explains, "The extreme radiation environment at Europa gave far more design challenges for the ASU engineering team than on any previous instrument we've developed."
Left unprotected, he says, the high levels of trapped electrons and protons in Jupiter’s magnetic field would cause serious damage to traditional flight instrument hardware.
"We had to use dense shielding materials, such as copper-tungsten alloys, to provide the necessary protection from the expected radiation," he says. "And to ensure that E-THEMIS will survive during the mission, we also carried out radiation tests on the instrument's electronic components and materials."
Then came the pandemic
Besides the engineering hurdles, the team had to build and test E-THEMIS during the pandemic.
In the workshops and clean rooms, Mehall explains, "We took all the safety precautions we could — everybody masked, we wiped down surfaces regularly, and we limited contact among ourselves."
Christensen adds that due to the pandemic requirements, "We had to go to two shifts, with one group of people coming in the morning to do part of a process. Then in the afternoon another group would come in to inspect the work. It was just horribly inefficient compared to our normal workflow."
He estimates that dealing with all the pandemic difficulties added at least five to six months to building and testing the instrument.
As E-THEMIS was being prepared for shipment to JPL, Christensen said, "Europa may be the most dynamic place where our group has ever sent a science instrument. And knowing that we're building a thermal camera to study a moon with an ocean that could harbor life has certainly kept everyone excited through all of the hard work and challenges."
In addition to Christensen and Mehall, the E-THEMIS engineering team includes Saadat Anwar, Courtnie Besich, Heather Bowles, Zoltan Farkas, Tara Fisher, Andrew Holmes, Ian Kubic, Edgar Madril, Bill O’Donnell, Carlos Ortiz, Dan Pelham, Mehul Patel, Nick Piacentine and Rob Woodward.
More about the mission
Missions such as Europa Clipper contribute to the field of astrobiology, the area of interdisciplinary research on the variables and conditions of distant worlds that could harbor life as we know it. While Europa Clipper is not a life-detection mission, it will conduct a detailed reconnaissance of Europa and investigate whether the icy moon, with its subsurface ocean, has the capability to support life. Understanding Europa’s habitability will help scientists better understand how life developed on Earth and the potential for finding life beyond our planet. 
Managed by Caltech in Pasadena, California, JPL leads the development of the Europa Clipper mission in partnership with the Johns Hopkins Applied Physics Laboratory in Laurel, Maryland, for NASA’s Science Mission Directorate in Washington. The Planetary Missions Program Office at NASA’s Marshall Space Flight Center in Huntsville, Alabama, executes program management of the Europa Clipper mission.
More information about Europa can be found at europa.nasa.gov.
Top photo: Engineers at NASA's Jet Propulsion Laboratory prepare E-THEMIS for a series of function tests upon its arrival at JPL. Photo by NASA/JPL-Caltech
Written by Robert Burnham, science writer
Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert system.
Media Contacts
Kimberley Baptista
Arizona State University
Kim.Baptista@asu.edu
Office: 707-479-0311

Kimberley Baptista
Arizona State University
Kim.Baptista@asu.edu
Office: 707-479-0311

Arizona State University
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Copyright © 2022 by the American Association for the Advancement of Science (AAAS)
Copyright © 2022 by the American Association for the Advancement of Science (AAAS)

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