All realistic quantum systems interact with their environments and thereby must be considered as open quantum systems. When a quantum system is strongly coupled to its environment, the so-called ...

Duke Quantum Center researchers use a neutral-atom platform to simulate unusual localization effects that could underpin robust quantum information storage In the everyday world, governed by classical ...

For years, progress in artificial intelligence has followed a simple rule: make it bigger with more layers, more connections, more computing power. However, a new study suggests otherwise. Instead of ...

Quantum computing has long been dominated by proprietary machines locked behind corporate and national lab firewalls, but a different model is starting to take shape. A growing coalition of ...

For quantum computing to reach the point where it is fault-tolerant, scalable, and commercially viable, it’s going to be with the help of key components of advanced computing today, namely AI, open ...

This study presents a quantum photonic approach to time-series forecasting, enhancing prediction accuracy through multiphoton states and quantum correlations.