Rice University researchers have demonstrated that isotopically enriched boron arsenide crystals can sustain quantum ...

You may not be able to hear it, but all solid materials make a sound. In fact, atoms—bound in lattices of chemical bonds—are ...

A new study published in Physical Review Letters by a team of researchers, including Zhifeng Ren’s group at the University of ...

Researchers observed and verified flat-band ultrastrong coupling of optical phonons and surface plasmon polaritons, enabling new polariton tech. (Nanowerk News) Researchers from CIC nanoGUNE, in ...

An Osaka Metropolitan University-led research team investigated the decay time of coherent longitudinal optical (LO) phonons both in a GaAs 1−x N x epilayer and in a GaAs single crystal to clarify the ...

Add Yahoo as a preferred source to see more of our stories on Google. Researchers built a chip that can split single phonons—the smallest units of vibration. (CREDIT: AI-generated image / The Brighter ...

Schematics of the ultrafast broadband terahertz excitation and polarization rotation detection of phonon in WSe2. Obtained result (lower right) includes the coherent phonon oscillation signal excited ...

(a) Schematic illustration of the magneto-optical Raman experiment. (b) Observation of chiral phonon behavior in the Bg4 mode. (c) Magneto-optical Raman effect (linear polarization). (d) ...

Researchers from Delft University of Technology have made a breakthrough that could alter the future of quantum technology. They created a chip-based device that can split phonons—the quantized ...