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Flight Dynamics: The Team behind Gaia’s Arrival at Nothingness

Mon, 01/20/2014 - 10:04am
ESA

Gaia mapping the stars of the Milky WayWith a final, modest, thruster burn ON January 14, 2014, ESA’s billion-star surveyor finalized its entry into orbit around ‘L2’, a virtual point far out in space. But how do you orbit nothing? And who can show you how to get there, anyway?

Just after 15:30 GMT (16:30 CET), Gaia made a short thruster burn, nudging the galactic survey craft onto its planned scientific orbit. The job had been mostly completed the prior week, after an almost two-hour firing took Gaia into a squiggly path about the L2 Lagrange point, 1.5 million km from Earth.

But this apparently simple maneuver belies an astonishing fact: the L2 point consists of precisely nothing. It’s simply a point in space.

“Lagrange points are special — it’s true there’s nothing there,” says Markus Landgraf, a mission analyst at ESOC, ESA’s operations center in Darmstadt, Germany.

“They are points where the gravitational forces between two masses, like the Sun and Earth, add up to compensate for the centrifugal force of Earth’s motion around the Sun, and they provide uniquely advantageous observation opportunities for studying the Sun or our Galaxy.”

As seen from this Lagrange point (there are a total of five such points in the Sun-Earth system), the Sun, Earth and Moon will always be close together in the sky, so Gaia can use its sunshield to protect its instruments from the light and heat from these three celestial bodies simultaneously.

This also helps the satellite to stay cool and enjoy a clear view of the Universe from the other side.

L2 provides a moderate radiation environment, which helps extend the life of the instrument detectors in space.

However, orbits around L2 are fundamentally unstable.

“We'll have to conduct station keeping burns every month to keep Gaia around L2, otherwise perturbations would cause it to ‘fall off’ the point,” says Gaia Operations Manager David Milligan.

For those used to seeing images of the International Space Station orbiting Earth, or Mars Express orbiting the Red Planet, it seems intuitive that spacecraft have to orbit something. How do you get a spacecraft to orbit around a point of nothingness?

To maintain this orbit for Gaia’s planned five-year mission requires extremely careful work by ESA’s flight dynamics team — the experts who determine and predict trajectories, prepare orbit maneuvers and determine satellite attitudes.

The flight dynamics experts use a range of software tools, developed and refined during decades of support to missions around Earth and across the Solar System.

To plan the orbit, the team applies mathematical models to generate an initial guess for the target orbit and how to get there. This guess must account for the requirements and constraints of the launcher and the needed telecommunications links.

Next, those initial guesses are fed into simulation software to see if the results would violate any of the constraints. Often, no solution is possible.

“That is where expertise and experience are indispensable to reconsider the assumptions and then start all over,” says Frank Dreger, Head of Flight Dynamics.

“There's no commercial source for this sort of software or expertise — it’s been built up over many years at ESOC and represents a capability that is rare in the world and unique in Europe.”

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