The principle of wave-particle duality is crucial in quantum physics, highlighting the dual nature of light and matter and ...

Published on May 5, 2025, in Physical Review Letters, the breakthrough confirms a foundational theory proposed by Louis de Broglie in 1924 — that certain particles behave like waves. Advertisement ...

This wave-like character was first predicted by physicist Louis de Broglie. It is the “de Broglie wave” hypothesis that in part sparked the beginning of modern quantum mechanics.

This wave-like character was first predicted by physicist Louis de Broglie. It is the "de Broglie wave" hypothesis that in part sparked the beginning of modern quantum mechanics.

This wave-like character was first predicted by physicist Louis de Broglie. It is the “de Broglie wave” hypothesis that in part sparked the beginning of modern quantum mechanics. “We understand so ...

In November 1924, French physicist Louis de Broglie presented his revolutionary theory that has become one of the cornerstones of quantum physics. Issued on: 11/12/2024 - 16:01 Modified: 11/12 ...

In November 1924, French physicist Louis de Broglie presented his revolutionary theory that has become one of the cornerstones of quantum physics. Five years after presenting his revolutionary theory, ...

In November 1924, French physicist Louis de Broglie presented his revolutionary theory that has become one of the cornerstones of quantum physics. Five years after presenting his revolutionary theory, ...

De Broglie’s pilot wave theory, once rejected by its creator, lives on in quantum research, challenging traditional interpretations and promising deeper insights into particle behavior. Credit: ...

This week marks the centenary of the French physicist Louis de Broglie’s doctoral thesis, which later earned him a Nobel prize for “his discovery of the wave nature of electrons”. This ...

Young’s experiment was purely classical, but variations on this setup became important for quantum physics. In 1923 physicist Louis de Broglie proposed that quantum objects may behave not like ...