Press Release

LIGO Laboratories to Be Designated Historical Sites

By SpaceRef Editor
June 14, 2018
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Two laboratories that comprise the Laser Interferometer Gravitational-wave Observatory (LIGO) will be designated Historic Physics Sites by the American Physical Society (APS) in a ceremony beginning at 11:00 AM on June 20, 2018, at the LIGO facility in Livingston, Louisiana. Plaques to be placed at both the Livingston and the Hanford, Washington laboratories recognize the extraordinary efforts that ultimately led to the first confirmed detection of gravitational waves emanating from the violent and distant astronomical events, such as black hole mergers.

The citation on the plaques reads:

“On September 14, 2015, LIGO interferometers at Livingston, Louisiana, and Hanford, Washington, made the first direct observation of gravitational waves. The precision required to detect these tiny disturbances in space-time, caused by merging black holes, was made possible by the coordinated labor of over one thousand scientific and technical workers. This and a companion plaque at the other LIGO site recognize their contributions to this historic detection.”

Rainer Weiss of MIT will be on hand for the ceremony, where APS President Roger Falcone will present the APS Historic Site plaque to be installed at the LIGO Livingston laboratory. Weiss shared the 2017 Nobel Prize in Physics with Barry Barish and Kip Thorne (both of Caltech) for developing LIGO and for the detection of gravitational waves in late 2015.

“I am delighted that the American Physical Society has designated the LIGO sites at Livingston, Louisiana, and Hanford, Washington, as historic places for the first direct measurements of gravitational waves from astrophysical sources,” said Weiss. “It is a tribute to the many scientists, engineers, students, and administrators that made LIGO successful. It is also an acknowledgment of the courage and wisdom of the National Science Foundation to take a risk on new and transformative science.”

The APS established its Historic Sites initiative to raise public awareness of physics. The plaques placed at sites identify important and interesting events in the history of physics as a way to engage the general public to increase awareness of important past scientific advances.

“It was a great surprise to me that the APS recognized the LIGO Observatories as historical sites so soon after the first detections of gravitational waves,” said LIGO Executive Director David Reitze. “This speaks to the tremendous impact that gravitational waves have already had on physics and astronomy. Everyone in the LIGO Laboratory is delighted to receive this wonderful recognition.”

Although the sites recognized through the program previously have typically involved scientific events from decades past, the APS bestowed the distinction on LIGO less than three years after its groundbreaking detection of merging black holes. Though recent, the detections were the culmination of extensive research and development leading up to the current LIGO facilities.

“It’s important to acknowledge the many years and extraordinary effort that have gone into LIGO,” said APS President Roger Falcone, who will present the plaque on behalf of the APS. “Rai Weiss and Kip Thorne have been working toward gravitational wave interferometers since the mid-sixties, and Barry Barish’s leadership beginning in the early nineties has been crucial to ensuring this daunting program came together and was successful. The APS Historic Site designation recognizes the dedication of thousands of people and their decades of struggle that have opened a new window on the universe, as much as it memorializes the first detection of gravitational waves a little over two years ago.”

The two LIGO laboratories each feature highly sensitive, L-shaped laser interferometers. Lasers that travel the length of the interferometers measure the distance between mirrors placed 4 kilometers apart. The interferometers detect changes in the distances between the mirrors to a precision of one part in a billion-trillion, or roughly a thousandth of the diameter of a proton. The separation between the mirrors fluctuates as the space between them is compressed or stretched with the passing of gravitational waves. Because gravity is an extraordinarily weak force, enormously violent events such as the collisions of black holes are required to produce waves sufficiently intense to register in the LIGO interferometers. Although one laboratory would be enough to detect gravitational waves, together the pair of LIGO facilities ensure that signals detected in one are confirmed in the other. In addition, because the laboratories are far from each other, one in Louisiana and one in Washington state, the differences in the signals and their detection times help narrow down the location of the events that produce the waves.

“This recognition of the thousand-plus people who enabled the first detection is a tribute to the LIGO Scientific Collaboration’s contribution to that step forward in science,” said David Shoemaker, LIGO Scientific Collaboration spokesperson and Senior Research Scientist at the MIT Kavli Institute for Astrophysics & Space Research. “It is particularly meaningful, coming from our colleagues in the Society. Thank you, APS!”

SpaceRef staff editor.