Take, for instance, quantum entanglement, which says that the state of one particle can be determined by examining the state ...

Quantum mechanics is weird. When you think you have reached the bottom of its weirdness, you always discover a new ...

Atomic diffraction has long been a cornerstone of quantum research, offering insights into the wave-like nature of particles.

A team of scientists is developing a "quantum-sensitive" device that could capture direct images of Earth-like exoplanets — something astronomers tend to consider so difficult it's nearly impossible.

(a) Working principle of metasurface displacement measurement can be understood as the detection of the power of different modes of the converted light. The incident irradiated on the metasurface and ...

Researchers have developed and demonstrated a technique that allows them to engineer a class of materials called layered hybrid perovskites (LHPs) down to the atomic level, which dictates precisely ...

Scientists have hypothesized that moir excitons -- electron-hole pairs confined in moir interference fringes which overlap with slightly offset patterns -- may function as qubits in next-generation ...

The fields of Quantum Optics and Nonlinear Photonics merge quantum mechanics with advanced photonic engineering to explore and manipulate light at its most fundamental level. This interdisciplinary ...

A new proposal borrows from the principles of quantum mechanics and a technique called "wavelength multiplexing" to hypothesize an ultra-dense new storage format. When you purchase through links on ...

Last November, Quantum Design and NanoMEGAS invited industry and research professionals to learn more about the theoretical and practical applications of Precession Electron Diffraction (PED).