Jupiter and Saturn: future destinations for NASA and ESA

Based on studies and stringent independent assessments, the U.S. Europa Jupiter System Mission is technically more feasible to implement first.Provided by ESA, Noordwijk, Netherlands
By | Published: February 18, 2009 | Last updated on May 18, 2023
Jupiter Mission
In February 2009, ESA and NASA selected their future flagship mission to the outer Solar System – a new project to explore Jupiter and its four largest moons.
February 18, 2009
At a meeting in Washington last week, NASA and ESA officials decided to first pursue a mission to study Jupiter and its four largest moons, and plan for another mission to visit Saturn’s largest moon, Titan, and Enceladus.

Related blog:Exclusive Q&A with Europa expert Richard Greenberg,” by Daniel Pendick, Associate editor.

The proposed projects are endeavors that set the stage for future planetary science research. These outer-planet flagship missions could eventually answer questions about how our solar system formed and whether habitable conditions exist elsewhere.

The missions, called the Europa Jupiter System Mission and the Titan Saturn System Mission, are the result of the merger of separate NASA and European Space Agency (ESA) mission concepts. NASA originally studied four mission concepts in 2007, and narrowed them down to two proposals in 2008. One finalist was the Europa orbiter to explore this icy moon of Jupiter and its subsurface water ocean. The other was a Titan orbiter to revisit Saturn’s moon.

Meanwhile, in 2007, ESA had also initiated a competition to select their flagship mission for the Cosmic Vision 2015-2025 slot of its scientific program. Two finalists, called Laplace and Tandem, were selected for further study. Laplace was proposed as a set of spacecraft to orbit Jupiter and eventually orbit and possibly land on Europa. Tandem was proposed as a set of spacecraft to orbit Titan and explore its surface, after exploring the surface of another moon of Saturn, Enceladus.

Engineers and scientists carefully studied these missions in preparation for last week’s meeting. Based on studies and stringent independent assessments, the U.S. Europa Jupiter System Mission, called Laplace in Europe, was the technically more feasible to implement first. However, ESA’s Solar System Working Group concluded that the scientific merits of both missions could not be separated. The group declared, and NASA agreed, that both missions should move forward for further study and implementation.

“The decision means a win-win situation for all parties involved,” said Ed Weiler, associate administrator for NASA’s Science Mission Directorate in Washington. “Although the Jupiter system mission has been chosen to proceed to an earlier flight opportunity, a Saturn system mission clearly remains a high priority for the science community.”

Both agencies will need to undertake several more steps and detailed studies before officially moving forward.

“This joint endeavor is a wonderful new exploration challenge and will be a landmark of 21st century planetary science,” said David Southwood, ESA director of science and robotic exploration. “What I am especially sure of is that the cooperation across the Atlantic that we have had so far, and we see in the future, between America and Europe, NASA, and ESA, and in our respective science communities is absolutely right. Let’s get to work.”

New exploration challenges at Jupiter and Saturn
The Europa Jupiter System Mission will use two robotic orbiters to conduct unprecedented detailed studies of the giant gaseous planet Jupiter and its moons Io, Europa, Ganymede, and Callisto. NASA will build one spacecraft, initially named Jupiter Europa Orbiter. ESA will build the other spacecraft, initially named Jupiter Ganymede Orbiter. The two spacecraft are scheduled to launch in 2020 on two separate launch vehicles from different launch sites. They will reach the Jupiter system in 2026 and spend at least three years conducting research.

Europa, with its putative ocean, is a unique target to study habitability around the gas giant. Ganymede, the largest moon in the solar system, is the only moon known to have an internally generated magnetic field and is also suspected to have a deep undersurface water ocean. Scientists long have sought to understand the causes of the magnetic field. Io, the most volcanically active body in the solar system, and Callisto, whose heavily cratered surface provides a record of events from the early history of the solar system, are also key targets of the Jupiter System Mission.

The two orbiters will spend nearly a year orbiting Europa and Ganymede, respectively. They will address the science of the Jupiter system to better understand the formation and evolution of the Jovian system.

The Titan Saturn System Mission would consist of a NASA orbiter and an ESA lander and research balloon. The complex mission poses several technical challenges requiring significant study and technology development. NASA will continue to study and develop those technologies. The National Academy in Washington is beginning to piece together the roadmap for new NASA planetary missions to begin after 2013. On the European side, interested scientists will have to re-submit the Titan mission at the next opportunity for mission proposals in the Cosmic Vision program.