A Step Toward Gravitational Wave Detection
Credit:
LIGO, Caltech,
NSF
Accelerate a charge and you'll get
electromagnetic radiation: light.
But accelerate any mass and you'll get
gravitational radiation.
Light is seen all the time, but, so far,
a confirmed direct detection of
gravitational radiation has
yet to be made.
When absorbed,
gravitational waves (GWs) create a
tiny symmetric jiggle similar to squashing a
rubber ball and letting go quickly.
Separated detectors can be used to discern
GWs from everyday bumps.
Powerful astronomical GW sources would coincidentally
jiggle even detectors on opposite ends of the Earth.
Pictured above are the two-kilometer-long arms
of one such detector: the
LIGO Hanford Observatory in
Washington,
which recently achieved a
phase-lock milestone to future GW detection.
When it and its
sister interferometer in
Louisiana
come online in 2002, they may see a
GW sky so
strange it won't be immediately understood.
APOD mourns the recent passing of
Joseph Weber, a visionary thinker and pioneer in
gravitational wave detection.