The local universe may be expanding more slowly than previously thought, a discovery that could relieve a pesky discrepancy ...

Researchers from Tokyo Metropolitan University have succeeded in detecting laser-assisted electron scattering (LAES) using ...

Optical frequency combs—laser sources that emit evenly spaced colors of light—are foundational, ubiquitous tools for ...

There’s a great deal of talk among horse racing stakeholders about what’s going to happen in New Jersey between now and the November elections. The Meadowlands Racetrack in East Rutherford desperately ...

The strontium optical lattice clock is one of the most accurate timepieces ever made, capable of measuring seconds to 19 ...

Diagnosing some diseases could be as easy as breathing into a tube. MIT engineers have developed a test to detect disease-related compounds in a patient's breath. The new test could provide a faster ...

A recorded radio interview with Dutch astronomer, astrophysicist, and council communist theorist Anton Pannekoek in New York ...

Superconductors are among the most puzzling materials in physics. They conduct electricity with zero resistance, but only under specific conditions that researchers have struggled for decades to ...

Signed non-binding letter of intent and selected an operating partner to develop a new Miami Beach Mansion membership club, with anticipated participation through licensing and membership revenue ...

New Mexico United has emerged as a prime candidate to become the "major anchor" at the state fairgrounds as officials finalize a master plan to redevelop the 236-acre tract in Northeast Albuquerque.

A new quantum communication method uses the temporal Talbot effect to simplify high-dimensional quantum key distribution.

Scientists are exploring a new type of optical atomic clock based on ytterbium-173 ions that could help define the future standard for measuring time.