Twisted materials—known as moiré structures—have revolutionized modern physics, emerging as today's "alchemy" by creating ...

Scientists have discovered a revolutionary new method for creating quantum states by twisting materials at the M-point, ...

Quantum sensors have become important tools in low-energy particle physics. Michael Doser explores opportunities to exploit ...

Finally, we will get to see a test of the IVO quantum drive which is a propellentless drive. If it is successful in raising ...

In physics terms, radiation is simply energy on the move, carried by waves like sunlight or particles like those released by ...

Excitons—bound pairs of electrons and an electron hole—are quasiparticles that can arise in solids. While so-called "bright" ...

The final Fermilab measurement is (116592070.5 ± 11.4  (stat.) ± 9.1 (syst.) ± 2.1  (ext.)) × 10 –11, fully consistent with ...

Photon induced near-field electron microscopy has been recently introduced to investigate the dynamics of near-field distributions in nanostructures, with femtosecond time and angstrom spatial ...

Whole-mount 3D imaging at the cellular scale is a powerful tool for exploring complex processes during morphogenesis. In organoids, it allows examining tissue architecture, cell types, and morphology ...

Spin-wave networks may unlock energy-efficient AI computing. Discover the tech reshaping hardware demands for greener AI.

The performance of nanoscale electronic and photonic devices critically depends on the size and geometry and may significantly differ from those of their bulk counterparts. Along with confinement ...

A new hybrid photonic platform enhances fluorescence signals over 450-fold, enabling ultra-sensitive biosensing at attomolar ...