However, astronomers would love to measure gravitational waves in space with even better resolution, but that requires two satellites separated by millions of miles. Even over these extreme distances, the gravitational wave's influence on the warping of spacetime will be minuscule, requiring precise measurements.
Luckily for science, the European Space Agency will launch a large-scale gravitational wave observatory in 2034, although the design of it isn't yet finalized. Previous concepts called Laser Interferometer Space Antenna (LISA) and New Gravitational wave Observatory (NGO) have been studied in detail but were not selected.
That's where LISA Pathfinder comes in. It won't actually hunt for gravitational waves, but will work out the kinks for the much larger mission in a couple of decades. And project scientist Paul McNamara plans to be there for both launches.
"What I really wanted to do (with my career) is gravitational wave astrophysics," McNamara told Discovery News, adding he started working on LISA at age 21, in 1994. That will put him close to retirement age when the 2034 mission gets off the ground.
LISA Pathfinder will need to be an extraordinarily quiet and stable spacecraft. It will carry two 2 kilogram (4.4-pound) precious payloads -- test masses of a gold-platinum alloy -- that it needs to shield from the stresses of launch, the pressure of solar radiation, and the extreme environment of space. Also, no magnetic materials can be used during construction, among other requirements.
Read more at Discovery News
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