What does LIGO mean in OBSERVATORIES

LIGO stands for Laser Interferometer Gravitational-Wave Observatory. It is a large-scale physics experiment that utilizes lasers and interferometers located in the United States to detect faint ripples in the fabric of spacetime known as gravitational waves.

LIGO consists of two massive detectors, one located in Livingston, Louisiana and the other located in Hanford, Washington. Each detector contains two perpendicular arms of 4 kilometers (2.5 miles) long. A laser beam is sent along each arm and reflected off of a mirror at the end back to the beginning where it is split into two beams which travel back along the arms before being recombined at a common detector. Any imperfection or disruption in spacetime will cause slight differences between how the two beams interacted at their point of recombination, allowing scientists to detect these extremely small disturbances known as gravitational waves.

The idea behind the concept of Laser Interferometer Gravitational Wave Observatories was first proposed by Caltech's Professor Rai Weiss in 1967. Then over several decades until its launch, numerous physicists worked on developing the necessary technology and instruments needed for this ambitious project including co-founders Professor Kip Thorne and Rainer Weiss from MIT, Ronald Drever from Caltech, as well as Barry Barish and David Hahn who took part in leading roles during its construction.

The Laser Interferometer Gravitational-Wave Observatory became fully operational on Sep 18th 2015 when it detected its first detections referred to as GW150914 and GW151226, marking an incredible milestone in modern science history by proving Einstein's theory on General Relativity which had eluded humanity for nearly 100 years since its initial theoretical prediction!

Since its activation in Sep 2015, several groundbreaking discoveries have been made using the data obtained by LIGO such as black holes merging with one another, binary neutron stars crashing into each other emitting powerful gamma rays across space & time! All these findings have indeed helped revolutionize our understanding of gravity & physics today!

Funding for Laser Interferometer Gravitational Wave Observatory comes from a variety of sources ranging from public funding from countries like USA (National Science Foundation NSF) & UK (Science & Technology Facilities Council STFC), to private donations from institutions such as Microsoft Research Ltd., Sherman Fairchild Foundation etc., and charitable bodies like National Geographic Society & Heising Simons Foundation.

Absolutely! Starting 2021, another major upgrade called Advanced-LIGO Plus will be implemented which will increase the sensitivity level even further allowing us to observe even fainter ripples through spacetime than current levels! This should help us explore new areas of physics never previously accessible before!