LISA is set to revolutionize our understanding of the gravitational universe and the interactions that make the entire cosmos ...

The ESA is leading the Laser Interferometer Space Antenna mission, with NASA partnering on the project that would use lasers ...

The principal goal of the space-based LISA gravitational wave detector is to observe the extreme mass ratio inspiral (EMRI) of stellar-size black holes orbiting supermassive black holes. Detection and ...

TEGO revolutionizes gravitational wave detection with its tetrahedral spacecraft formation, improving sensitivity and ...

Caltech scientists are developing laser-driven lightsails that could push spacecraft beyond our solar system. Their research ...

Humans are littering space with thousands of satellites, which pose a risk to climate and the environment, space ...

The Tetrahedron Constellation Gravitational Wave Observatory would consist of four satellites positioned in space ...

Scientists may be able to confirm that this is indeed a white dwarf using next-generation observatories such as NASA's Laser Interferometer Space Antenna (LISA), which is designed to detect ...

The Verifire™ Laser Interferometer provides flatness metrology and surface form of optical components and wavefront of optical systems and subassemblies like windows, lenses, mirrors, prisms—and even ...

In radio astronomy, tripole antennas find an application in space telescopes. More recently, a radio interferometer with satellite-borne tripole antennas is being considered for a lunar orbiting radio ...