A matter-wave interferometer has measured the effect of gravity on individual atoms at the highest precision to date. That is according to its creators in the US and Italy, who built their instrument ...

Quantum sensing via matter-wave interferometry aboard the ISS could broaden our ... Atom interferometers are currently being used on Earth to study the fundamental nature of gravity and are ...

The wave nature of matter becomes visible in interference experiments 1.Interferometry with atoms has become an important tool for both fundamental and applied experiments in the diverse fields of ...

A matter-wave interferometer is ‘universal’ if it can be applied to any atom or molecule irrespective of its internal state. This removes the need to prepare a spatially coherent incident beam.

Matter-wave interferometry relies on the quantum behavior of ultracold atoms, which, at extremely low temperatures, act more like waves than particles.

At the heart of this breakthrough device is something called "matter wave interferometry," which uses two distinct characteristics of quantum mechanics: wave-particle duality and superposition.

Oct 22, 2022: An entangled matter-wave interferometer: Now with double the spookiness (Nanowerk News) JILA and NIST Fellow James K. Thompson’s team of researchers have for the first time successfully ...

Atom interferometer provides most precise test yet of Einstein's gravitational redshift Scientists measure interference between matter waves separated by 0.1 mm ...

Cold atoms in space could target gravitational waves. Shimon Kolkowitz of the University of Wisconsin-Madison in the US points out that many other proposals based on matter-wave interferometry use ...

Gravitational wave detectors like LIGO use interferometry to sense the ripples of spacetime caused by the motion and interactions of massive objects like black holes and neutron stars.

Citation: Quantum sensing via matter-wave interferometry aboard the ISS could broaden our knowledge of the universe (2025, May 6) ...