Last weekend, the European Space Agency (ESA) lost contact with its XMM-Newton X-ray observatory. Many space agencies and organizations are now joining forces trying to fix the problem — a feeble radio signal has been heard, and ground-based observations confirm that the spacecraft is intact. XMM-Newton has operated faultlessly in orbit for almost nine years, close to its design life-time and the craft has become a workhorse of modern astronomy.

During the evening of Saturday, October 18, XMM-Newton was approaching the point of closest approach to our planet, or perigee, along its 48-hour highly elongated orbit around Earth. At that time, it was communicating normally with the Santiago ground station in Chile through one of its two antennas. After the spacecraft moved out of visibility from Santiago, its radio signal, routinely switched to the other antenna by a previously uploaded command, was expected to be picked up by ESA's Villafranca ground station in Spain about an hour later. Unfortunately, radio contact was never reestablished.

Notwithstanding all the standard recovery procedures performed immediately by the XMM-Newton flight control team at ESA's European Space Operations Centre (ESOC) in Darmstadt, Germany, the problem was still present when other ESA ground stations were used. The situation hinted at either a technical problem on board or, in the worst case, a catastrophic event in orbit, such as a collision with space debris or a meteoroid, or a malfunction of a thruster making the spacecraft tumble wildly, or even an explosion. Luckily, the worst cases have been ruled out, as amateur astronomers in Germany's Starkenburg observatory took images of the sunlit XMM-Newton against the night sky. This showed that the satellite has not fragmented and that it is maintaining a constant attitude in its expected orbit. This was confirmed later by the many other ground-based telescopes across the globe that answered XMM-Newton's call for help. The subsequent recovery attempt involved a more powerful ground station. ESA's 35 m-diameter antenna at New Norcia (Western Australia), using a radio-science mode developed for deep space missions, finally detected a weak signal from XMM-Newton, showing that the spacecraft is alive.