A researcher at the Department of Physics at Tohoku University has uncovered a surprising quantum phenomenon hidden inside ...

A researcher at Tohoku University's Department of Physics discovered an unexpected quantum phenomenon concealed inside ...

Electron–phonon interactions underpin a diverse range of phenomena in quantum many-body systems. These interactions, whereby electrons couple with lattice vibrations (phonons), are central to ...

Researchers have created a chip-based device that can split phonons—tiny packets of mechanical vibration that can carry information in quantum systems. By filling a key gap, this device could help ...

Recent technological advances have opened new exciting possibilities for the development of cutting-edge quantum devices, including quantum random access memory (QRAM) systems. These are memory ...

Listening to the "whispers" of electrons and crystals has lead to a quantum discovery with terahertz light that could help us ...

For much of my career, I have been fascinated by the ways in which materials behave when we reduce their dimensions to the ...

Rice University scientists have discovered a way to make tiny vibrations, called phonons, interfere with each other more strongly than ever before. Using a special sandwich of silver, graphene, and ...

First, in hBN, phonon-polaritons possess a significantly higher density of states and can propagate within the bulk, behaving like deep-subwavelength light rays that bounce back and forth between ...

Entanglement—linking distant particles or groups of particles so that one cannot be described without the other—is at the core of the quantum revolution changing the face of modern technology. While ...

Device could help link different quantum systems, supporting advances in computing and secure communication. (Nanowerk News) Researchers have created a chip-based device that can split phonons — tiny ...