LISA Pathfinder is testing in flight the concept of low-frequency gravitational wave detection: it has put two test masses in a near-perfect gravitational free fall, and is controlling and measuring their motion with unprecedented accuracy. To do this it uses inertial sensors, a laser metrology system, a drag-free control system and an ultra-precise micro-propulsion system.
The aim of the LISA Pathfinder mission is to demonstrate, in a space environment, that free-falling bodies follow geodesics in space-time, by more than two orders of magnitude better than any past, present, or currently planned mission. Specifically, it must:
The name LISA in the mission name comes from Laser Interferometer Space Antenna, an earlier concept for a spaceborne observatory for gravitational waves, and now used to describe a class of missions based on the original LISA concept. LISA Pathfinder is testing key technologies for future LISA-like space missions to study the gravitational Universe.
LISA Pathfinder has a main science spacecraft and a separable propulsion module. The propulsion module was used to raise the orbit of LISA Pathfinder after launch and to propel the spacecraft to its operational orbit at L1. The propulsion module was then jettisoned since it would be a source of unwanted forces on the science spacecraft during science operations. The science spacecraft carries the LISA Technology Package (LTP) and Disturbance Reduction System (DRS), and is covered with one single fixed solar array.
The science spacecraft carries two test packages:
LISA Pathfinder was launched into a slightly elliptical parking orbit. Using its own propulsion module it progressively expanded its Earth orbit over a period of two weeks before beginning the cruise phase to its operational orbit. The spacecraft will operate in a Lissajous orbit around the first Sun-Earth Lagrange point, L1. After the last transfer burn was performed, and the health of the science spacecraft ascertained, the propulsion module was jettisoned.
The Mission Operations Centre is at the European Space Operations Centre (ESOC) in Darmstadt, Germany. The Science and Technology Operations Centre is located at the European Space Astronomy Centre (ESAC) at Villaneuva de la Cañada in Spain and is re-located to ESOC during LISA Pathfinder operations.
LISA Pathfinder was built by an industrial team led by prime contractor, Airbus Defence and Space Ltd. Airbus Defence and Space GmbH is responsible for providing the integrated LISA Technology Package (LTP) payload. The subsystems for the LTP are provided by a consortium of European companies, research institutes, and ESA.
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