Laser Interferometer Gravitational-Wave Observatory

LIGO

IGEN Engagement

The Laser Interferometer Gravitational-Wave Observatory is committed to developing a pipeline for UREM students to transition into professional careers and to attend to their professional development. As such, we are developing materials for training of their research mentors, and constructing logistic guidelines to make students known to hiring managers and researchers.

LIGO Education and Outreach Opportunities

Opportunities for students span a broad range of scientific and engineering disciplines, including: gravitational physics, astrophysics, metrology, optics, lasers, mechanical systems, controls, and electronics. Students are involved in detector development, modeling and analysis, as well as open detector operations, observations, and data analysis. Research takes place on the Caltech and MIT campuses as well as at the detector sites in Hanford, WA and Livingston, LA.

About the Lab

LIGO was designed to open the field of gravitational-wave astrophysics through the direct detection of gravitational waves predicted by Einstein’s General Theory of Relativity. LIGO’s multi-kilometer-scale gravitational wave detectors use laser interferometry to measure the minute ripples in space-time caused by passing gravitational waves from cataclysmic cosmic events such as colliding neutron stars or black holes, or by supernovae. LIGO consists of two widely-separated interferometers within the United States—one in Hanford, Washington and the other in Livingston, Louisiana—operated in unison to detect gravitational waves.

LIGO is a national facility for gravitational-wave research providing opportunities for the broader scientific community to participate in detector development, observation, and data analysis. LIGO's original instrument, a largely 'proof of concept' model dubbed "Initial LIGO", engaged in "science observations" from 2002 to 2010. No detections were made in that time, but enormous strides in detector engineering were achieved as a result of what was learned during that initial run. 2010 marked the end of the Initial LIGO project, and as planned, between 2010 and 2014, both interferometers were completely overhauled to incorporate much more sophisticated engineering. This "Advanced LIGO" project successfully improved the capabilities of the detectors, and within days of turning on the new and improved instruments, LIGO made its first detection of gravitational waves, generated by a pair of colliding black holes some 1.3 billion light years away. Since that historic day, LIGO's engineers have continued to improve the detectors' sensitivities. The success of these improvements is evidenced by the many more gravitational wave detections that have since been made. Ultimately, with continued refinement and upgrading, Advanced LIGO's detectors will achieve a sensitivity 10 times greater than Initial LIGO, bringing 1000 times more galaxies into LIGO's observational range.

The design and construction of LIGO was carried out by a team of scientists, engineers, and staff at the California Institute of Technology (Caltech) and the Massachusetts Institute of Technology (MIT), and collaborators from over 80 scientific institutions world-wide that are members of the LIGO Scientific Collaboration.

The responsibilities of LIGO Laboratory, comprising Caltech, MIT, LIGO Hanford, and LIGO Livingston, include operating the LIGO detectors, research and development aimed at further improving the capabilities of LIGO's detectors, research in the fundamental physics of gravitation, astronomy, and astrophysics, and public education and outreach. LIGO is funded by the U.S. National Science Foundation and operated by the California Institute of Technology and the Massachusetts Institute of Technology.

 

Location
Opportunities
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National Laboratory
The Laser Interferometer Gravitational-Wave Observatory is committed to developing a pipeline for UREM students to transition into professional careers and to attend to their professional development.