Thanks to advances in science, we’re now able to move beyond Bohm and Bohr’s theorizing; we can test their hypotheses through ...

Light does not “think” in any human sense. Still, under the right conditions, it can behave in a way that looks uncannily like a memory system.

An international team of physicists has uncovered a subtle but important twist in how “memory” works in quantum systems.

Quantum interference, in particular, plays a key role. It occurs when different pathways that a molecule can take overlap, resulting in specific patterns of interaction: some pathways amplify each ...

Quantum mechanical effects are known to be easily disrupted by disturbances from the surrounding environment, commonly referred to as noise. To minimize these disturbances, physicists often study ...

Discovery of a strong quantum interference effect could spark advances in sensing, computing and next-gen technologies by harnessing wave interactions at the quantum level. (Nanowerk News) Just as ...

Quantum navigation is proving to be a critical part of that toolset, delivering unjammable, unspoofable, and undetectable navigation with bounded positioning error and strong complementarity to other ...

The quantum rules shaping molecular collisions are now coming into focus, offering fresh insights for chemistry and materials science. (Nanowerk News) The quantum rules shaping molecular collisions ...

The interior of the vacuum chamber during a scattering experiment. The detector is shown in grey (top right) and the Au(111) gold surface is shown in yellow. The lines indicate the path of the ...