Researchers have introduced a Quantum-Classical Convolutional Neural Network (QCCNN) for breast cancer diagnosis.
By Silpaja Chandrasekar
30 Oct 2024
The breakdown of spin statistics in ion-atom charge exchange collisions has been directly demonstrated by a recent study that was published in Physical Review Letters on October 22nd, 2024. Scientists from the Chinese Academy of Sciences’ (CAS) Institute of Modern Physics (IMP) led this study.
In a study published in Physical Review Letters, researchers at the Center for Computational Quantum Physics (CCQ) at the Flatiron Institute have revealed that the quantum problem they solved, which involved a specific two-dimensional quantum system of flipping magnets, exhibits a behavior known as confinement.
Archer Materials Limited (“Archer”), a semiconductor company advancing the quantum technology and medical diagnostics industries, has achieved some key milestones in its research undertaken in collaboration with two of its international research partners.
Scientists are continually searching for ways to increase computers' power while reducing their electricity use. A big step forward would be finding a material that conducts electrons with near-zero resistance at normal operating temperatures.
Researchers developed Metformin carbon quantum dots (MetCQDs) for improved diabetes management.
By Silpaja Chandrasekar
29 Oct 2024
A University of Michigan-led study has analyzed over 20 years of data from NASA's Chandra X-Ray Observatory, uncovering new complexities around black holes.
Using ultraviolet, optical, and infrared data from NASA’s Chandra X-ray Observatory, a group of astronomers demonstrated the locations of some of the most dangerous regions in a star cluster, where the likelihood of planet formation is reduced.
Researchers examine the toxicity potential of graphene quantum dots (GQDs) on the human intestinal fatty acid binding protein (HIFABP) through molecular simulations. The results reveal GQDs obstructing HIFABP's portals, possibly impairing its function, highlighting significant biosafety implications for GQD applications
By Silpaja Chandrasekar
28 Oct 2024
Researchers from the University of Chicago, University of California Berkeley, Northwestern University, the University of Colorado Boulder, and Argonne National Laboratory have pioneered a technique using molten salt to grow new types of quantum dots, offering an efficient way to create nanocrystals that were previously inaccessible due to high temperature requirements.
After seven months of living and working onboard the International Space Station (ISS), astronauts of NASA’s eighth rotational SpaceX crew mission (Crew-8) splashed down safely off the coast of Florida.
Amid various efforts to develop algorithms and technologies that close the gap between today's noisy quantum systems and future fault-tolerant quantum computers, QSA researchers from partner institutions have concentrated on using quantum devices and novel techniques for significant applications such as complex molecular simulations in chemistry.
As a kid, you may have tried to dig a hole in your backyard to reach China. Obviously, that didn't happen.
In 1181, a supernova near Cassiopeia shone brightly for six months. Recent observations using Caltech’s Keck Cosmic Web Imager (KCWI) have provided an unprecedented 3D view, revealing high-speed, dandelion-like filaments that expand ballistically, tracing the explosion precisely back to its origin???????.
Researchers from around the world recently convened at the U.S. Department of Energy's (DOE) Argonne National Laboratory for the 25th International Workshop on Neutrinos from Accelerators (NuFact).