Following months of analysis and testing, the Kepler Space Telescope team is ending its attempts to restore the spacecraft to full working order and now is considering what new science research it can carry out in its current condition.
Two of Kepler’s four gyroscope-like reaction wheels, which are used to precisely point the spacecraft, have failed. The first was lost in July 2012, and the second in May. Engineers’ efforts to restore at least one of the wheels have been unsuccessful.
Kepler completed its prime mission in November 2012 and began its four-year extended mission at that time. However, the spacecraft needs three functioning wheels to continue its search for Earth-sized exoplanets, which are planets outside our solar system, orbiting stars like our Sun in what’s known as the habitable zone — the range of distances from a star where the surface temperature of a planet might be suitable for liquid water. As scientists analyze previously collected data, the Kepler team also is looking into whether the space telescope can conduct a different type of science program, including an exoplanet search, using the remaining two good reaction wheels and thrusters.
“Kepler has made extraordinary discoveries in finding exoplanets, including several super-Earths in the habitable zone,” said John Grunsfeld, associate administrator for NASA’s Science Mission Directorate in Washington, D.C. “Knowing that Kepler has successfully collected all the data from its prime mission, I am confident that more amazing discoveries are on the horizon.”
On August 8, engineers conducted a system-level performance test to evaluate Kepler’s current capabilities. They determined wheel two, which failed last year, can no longer provide the precision pointing necessary for science data collection. The spacecraft was returned to its point rest state, which is a stable configuration where Kepler uses thrusters to control its pointing with minimal fuel use.
“At the beginning of our mission, no one knew if Earth-size[d] planets were abundant in the galaxy. If they were rare, we might be alone,” said William Borucki from NASA’s Ames Research Center in Moffett Field, California. “Now at the completion of Kepler observations, the data hold the answer to the question that inspired the mission: Are Earths in the habitable zone of stars like our Sun common or rare?”
An engineering study will be conducted on the modifications required to manage science operations with the spacecraft using a combination of its remaining two good reaction wheels and thrusters for spacecraft attitude control.
Informed by contributions from the broader science community in response to the call for scientific papers announced August 2, the Kepler project team will perform a study to identify possible science opportunities for a two-wheel Kepler mission.
Depending on the outcome of these studies, which are expected to be completed later this year, NASA will assess the scientific priority of a two-wheel Kepler mission. Such an assessment may include prioritization relative to other NASA astrophysics missions competing for operational funding at the NASA Senior Review board early next year.
From the data collected in the first half of its mission, Kepler has confirmed 135 exoplanets and identified over 3,500 candidates. The team continues to analyze all four years of collected data, expecting hundreds, if not thousands, of new discoveries, including the long-awaited Earth-sized planets in the habitable zone of Sun-like stars. Though the spacecraft will no longer operate with its unparalleled precision pointing, scientists expect Kepler’s most interesting discoveries are still to come.