Superconductor-based cameras that can detect a single photon—the smallest smidgeon of light—have existed for 20 years, but they’ve remained confined to laboratories due to the inability to scale them past a few pixels. Now, a team at the National ...
Jul 3, 2023
The fast switching and modulation of light is at the heart, among other things, of modern data transfer, in which information is sent through fiber optic cables in the shape of modulated light beams. It has been possible for several years now to m...
Jul 3, 2023
Researchers have created an antenna for light sources on a chip using an unusual placement of a semiconductor material. In the future, efficient nanoscale LEDs and lasers could be produced in this way.
Jul 3, 2023
Researchers at ETH Zürich, Empa, ICFO and Japan's National Institute for Materials Science have created an antenna for light sources on a chip using an unusual placement of a semiconductor material. In the future, efficient nanoscale LEDs and...
Jul 3, 2023
A facile technique for reproducibly creating Swiss-cheese-like nanomaterials has been developed by researchers at KAUST. This material, and the method required to create it, could help in the development of further advanced materials with applicat...
Jul 3, 2023
A group led by researchers at Nagoya University in Japan has developed a technology to capture and release cell-free DNA (cfDNA) on nanowire surfaces from urine. By extracting this DNA, they were able to successfully detect IDH1 mutation, a charac...
Jul 3, 2023
A recent breakthrough in the field of gravitational wave detection has been achieved by scientists in China, who have found vital evidence of nanohertz gravitational waves, thanks to pulsar timing observations performed with the Five-hundred-meter...
Jul 3, 2023
A group led by researchers at Nagoya University in Japan has developed a technology to capture and release cell-free DNA (cfDNA) on nanowire surfaces from urine.
Jul 3, 2023
The Chinese Pulsar Timing Array (CPTA) collaboration has identified evidence of nanohertz gravitational waves using the Five-hundred-meter Aperture Spherical Radio Telescope (FAST). Despite their shorter data set, their high sensitivity yielded re...
Jul 2, 2023
Quantum computing could revolutionize our world. For specific and crucial tasks, it promises to be exponentially faster than the zero-or-one binary technology that underlies today’s machines, from supercomputers in laboratories to smartphones in o...
Jul 2, 2023
