Emergence of classicality states that a quantum description of a large object must be the same as its classical description, but this isn’t always so…

Emergence of classicality states that a quantum description of a large object must be the same as its classical description, but this isn’t always so…
Scientists find predator-prey-like interactions in spinning particles, challenging physics and opening doors for quantum tech.
Quantum communication doesn’t necessarily need to be delayed; it might be possible to integrate it into existing fiber optic networks.
Scientists are using crystal imperfections to generate secure encryption, paving the way for quantum-resilient data protection.
Machine learning is bringing forth the future of secure communication, swiftly identifying single photons that hold the key to quantum tech.
Scientists create designs for quantum batteries, which harness the potential of quantum mechanics to enhance energy storage.
Adding extra dimensions to a theory known as “fuzzy gravity” may help bridge the gap between quantum mechanics and relativity.
A state-of-the-art printer with nanometer-scale precision enables the production of quantum emitters, advancing secure quantum communication.
Machine learning unveils the ideal structure of a quantum memristor, which could one day surpass current computing systems.
In theory, quantum communications should be impossible to hack, but study shows this may not be true in practice.