The mystery of quantum phenomena inside materials—such as superconductivity, where electric current flows without energy loss—lies in when electrons move together and when they break apart. KAIST ...

Unifying gravity and quantum theory remains a significant goal in modern physics. Despite the success in unifying all other fundamental interactions (electromagnetism, strong force and weak force) ...

Kaia Ra, author, oracle and spiritual teacher, has become an influential voice in conversations linking spirituality with ...

Using ultracold atoms and laser light, researchers recreated the behavior of a Josephson junction—an essential component of quantum computers and voltage standards. The appearance of Shapiro steps in ...

Researchers created scalable quantum circuits capable of simulating fundamental nuclear physics on more than 100 qubits. These circuits efficiently prepare complex initial states that classical ...

Have you ever doubted your knowledge or expertise? Noticed, if you’re a woman, that you receive less recognition than your male colleagues do, that your ideas were unheard in a discussion until they ...

A team led by renowned Chinese physicist Pan Jianwei has built a key component for a quantum computer — an atom-arranging setup capable of creating arrays 10 times larger than previous systems — that ...

Physicist Paul Davies’s Quantum 2.0: The past, present and future of quantum physics ends on a beautiful note. “To be aware of the quantum world is to glimpse something of the majesty and elegance of ...

The 2025 Nobel Prize in Physics has been awarded to three physicists whose pioneering experiments helped transform quantum physics from abstract theory into tangible technology. John Clarke, Michel H.

John Clarke, Michel H Devoret and John M. Martinis are announced this year's Nobel Prize winners in Physics, by the Royal Swedish Academy of Sciences at a press conference in Stockhom, Sweden October ...