Sometime in the year 2030, if all
goes according to plan, some dozen groups around the world will begin receiving
unique data streams sent from just above the planet Jupiter. Their instruments,
which will include a device designed and constructed in Israel, will arrive
there aboard the JUICE (JUpiter ICy satellite Explorer) spacecraft, a mission
planned by the European Space Agency (ESA) to investigate the properties of the
Solar System’s largest planet and several of its moons. Among other things, the
research groups participating in JUICE hope to discover whether the conditions
for life exist anywhere in the vicinity of the planet.
“This is the first time that an
Israeli-built device will be carried beyond the Earth’s orbit,” says Dr. Yohai
Kaspi of the Weizmann Institute’s Earth and Planetary Sciences Department, who
is the principle investigator on this effort. The project, conducted in
collaboration with an Italian team from the University of Rome, is called 3GM
(Gravity & Geophysics of Jupiter and Galilean Moons).
The Israeli contribution to the
project is an atomic clock that will measure tiny vacillations in a radio beam
provided by the Italian team. This clock must be so accurate it would lose less
than a second in 100,000 years, so Kaspi has turned to the Israeli firm
AccuBeat, which manufactures clocks that are used in high-tech aircraft, among
other things. Its engineers, together with Kaspi and his team, including Dr.
Eli Galanti and Dr. Marzia Parisi, have spent the last two years in research
and development to design a device that should not only meet the strict demands
of the experiment but survive the eight-year trip and function in the
conditions of space. Their design was recently approved for flight by the
European Space Agency. Israel’s Ministry of Science and Technology will fund
the research, building and assembly of the device.
For around two and a half years as
JUICE orbits Jupiter, the 3GM team will investigate the planet’s atmosphere by
intercepting radio waves traveling through the gas, timing them and measuring
the angle at which the waves are deflected. This will enable them to decipher
the atmosphere’s makeup.
During flybys of three of the
planet’s moons – Europa, Ganymede and Callisto – the 3GM instruments will help
search for tides. Researchers observing these moons have noted fluctuations in
the gravity of these moons, suggesting the large mass of Jupiter is creating
tides in liquid oceans beneath their hard, icy exteriors. By measuring the
variations in gravity, the researchers hope to learn how large these oceans
are, what they are made of, and even whether their conditions might harbor life.
The JUICE teams are preparing for a
launch in 2022. That gives them three years to get the various instruments
ready and another three to assemble and test the craft. In the long wait –
eight years – from launch to arrival, Kaspi intends to work on building
theoretical models that can be tested against the data they will receive from
their instruments.