Quantum computers, which operate leveraging quantum mechanics phenomena, could eventually tackle some optimization and ...

As computing demands grow, driven by artificial intelligence and the internet of things, the need for energy-efficient electronics becomes critical. At the heart of this evolution are transistors, the ...

A quantum "miracle material" could support magnetic switching, a team of researchers at the University of Regensburg and ...

This valuable study reports on the critical role of ANKRD5 (ANKEF1) in sperm motility and male fertility. However, the supporting data remain incomplete. This work will be of interest to biomedical ...

This rare event offers a unique opportunity to explore the universe, including probing the fundamental properties of the ...

A breakthrough catalyst, Ru3Zn0.85W0.15Ox, enhances OER activity and durability in acidic conditions, paving the way for ...

Scientists in India have simulated a novel perovskite solar cell that combinies a Dion-Jacobson 2D layer with a 3D halide ...

Scientists, led by Dr. Chumak, create a processor harnessing magnon transport to reduce energy consumption, marking a milestone in computing.

SLAC and Stanford achieve ambient-temperature superconductivity in nickelates without high pressure, boosting efficiency.

In the vast expanse of the cosmos, powerful cataclysmic events unleash streams of high-energy particles. Among them are neutrinos—ghostly subatomic particles that travel unimpeded through space, ...

On February 13, 2023, the ARCA detector, part of the neutrino telescope KM3NeT located off the southeast coast of Sicily, recorded a neutrino with an estimated energy of approximately 220 quadrillion ...

Researchers at the University of Regensburg and the University of Michigan have shown that chromium sulfide bromide, a ...