Scientists at Oak Ridge National Laboratory have found that applying an electric field to a specialized ceramic can nearly ...

A new study published in Nature Physics introduces a theory of electron-phonon coupling that is affected by the quantum geometry of the electronic wavefunctions. The movement of electrons in a lattice ...

These phonon-polariton waves exhibit several unique characteristics. For example, they can concentrate the energy of long-wavelength infrared light into extremely small volumes, even down to tens of ...

Controlling light at the nanoscale is crucial for next-generation technologies such as faster computing and ultra-sensitive sensors. Scientists are keen to harness unique hybrid waves called “phonon ...

Active tuning of anisotropic phonon polaritons in natural van der Waals crystals with negative permittivity substrates and its application in energy transport Manipulating photons on the nanoscale to ...

Physicists in China have uncovered new evidence that chiral phonons and magnons can interact strongly inside magnetic crystals. Using neutron spectroscopy, a team led by Song Bao at Nanjing University ...

Developing a unified theory for liquid behaviour has long been a challenge due to the complex interactions between particles and the constantly changing dynamic disorder within liquids. Current ...

Scientists use a novel cryogenic Quantum Twisting Microscope to reveal how electrons interact with phasons in twisted graphene, offering insights into superconductivity. Using this pioneering ...

Perovskite solar cells have surged from laboratory curiosities to serious contenders against silicon in barely a decade, yet the physics behind their remarkable energy harvesting has remained partly ...