New 4D vision chip enables robots to track distance and speed simultaneously, improving real time perception and motion ...
Researchers from Tokyo Metropolitan University have succeeded in detecting laser-assisted electron scattering (LAES) using ...
A Zürich-based team has successfully condensed complex 4D sensing technology — once too bulky for everyday use — onto a ...
The vacuum ultraviolet region is the area of the electromagnetic spectrum lying between X-rays and visible light. It is ...
Current vision systems for robots and drones rely on 3D sensors that, although powerful, do not always keep up with the ...
In 2020, astronomers discovered a violent cosmic event that has led them to rethink how extreme pairs of astronomical objects ...
The catastrophic collision of a black hole and a neutron star sent ripples across the universe. New analysis of those ripples ...
APL is developing a comprehensive suite of capabilities to ensure that additively manufactured parts can perform predictably ...
David Roy Guay has led SBQuantum to space and beyond with its cutting-edge diamond magnetometers, advancing magnetic sensing ...
The lasers alone would cost around one trillion dollars and the technology to create a nanocraft does not yet exist.
The latest crop of space-time wobbles includes a variety of heavy, fast-spinning, and lopsided colliding black holes.
New spacecraft techniques propose using CubeSats, laser rangefinding, and precise Doppler measurements to determine the mass ...
Some results have been hidden because they may be inaccessible to you
Show inaccessible results