Físicos invierten el flujo cuántico del tiempo para cargar baterías

Researchers in Australia have developed and tested what is described as the world's first proof-of-concept quantum battery, which charges faster as it scales up. Led by CSIRO in partnership with the University of Melbourne and RMIT, the prototype leverages quantum mechanics for rapid energy absorption. Findings were published in Light: Science & Applications.

30 de abril de 2026 Reportado por IA

Physicists at MIT have developed a theoretical technique inspired by the film Interstellar to send messages backwards in time using quantum entanglement. The approach mimics closed time-like curves and surprisingly improves communication through noisy channels. While actual time travel remains impossible, the idea could enhance conventional systems.

Researchers at the University of Chicago have developed a straightforward method to produce complex entangled quantum states using basic adjustments in optical cavity systems. The approach relies on existing laboratory tools and could advance quantum sensing applications. Their findings appear in a recent issue of Physical Review X.

14 de abril de 2026 Reportado por IA

An international team of researchers has discovered that quantum systems can appear memoryless from one viewpoint while retaining memory from another. The finding, based on Schrödinger and Heisenberg pictures, reveals hidden memory effects in quantum dynamics. This could impact the design of quantum technologies.

New research reinterprets the Einstein-Rosen bridge as a connection between two directions of time rather than a spatial shortcut. The study suggests this view could resolve the black hole information paradox and point to a universe that existed before the Big Bang. It was published in the journal Classical and Quantum Gravity.