Latest Articles for Phonons

New methods improve predictions of material behavior under varying conditions.

Insights into how heat moves through thin films, enhancing electronic devices.

Investigating how magnetic fields impact phonon dynamics in Kitaev materials.

Research reveals how quantum wires interact with mechanical motion and Lorentz invariance.

A new machine learning method speeds up phonon calculations for material properties.

Examining the potential of the Kekulé Valence Bond Solid state in graphene.

Exploring non-local heating and cooling effects in thermoelectric materials at the nanoscale.

Research reveals exciting interactions between magnons, phonons, and light for future technologies.

Research unveils key factors influencing single-photon emission in quantum technologies.

Study reveals insights into heat and electricity movement in 2D materials.

Bichromatic driving improves thermometry in trapped ion systems for quantum computing.

Research reveals fascinating interactions between excitons and phonons in layered materials.

Researchers are investigating ways to reduce light speed for better quantum technologies.

Research on interlayer excitons reveals new opportunities in electronics and optics.

Sapphire exhibits unique heat conduction properties even with impurities.

Bi Rh Se demonstrates unique properties with charge density waves and superconductivity.

Examining how atomic arrangements affect phonons and heat storage in materials.

Research reveals how defects in MoS2 affect its heat conductivity, enhancing device performance.

BaCo(AsO) shows remarkable heat conduction linked to magnetic properties.

Ba K BiO reveals unique properties critical for understanding superconductivity.

Exploring high-frequency spin waves in antiferromagnetic materials for advanced data processing.

This study investigates how heat moves in Mott insulators, focusing on spins and phonons.

Recent research sheds light on electron movement in quantum dot arrays.

Research tackles phonon-induced errors in spin qubits for better quantum computing.

Exploring the transition between fluid-like and structured electron states in two-dimensional materials.

Exploring new waveguide designs to reduce energy loss in phononic systems.

A new technique generates squeezed light using excitons and phonons at room temperature.

Isotopic disorder significantly impacts electron movement in materials, leading to unique scattering behaviors.

This study reveals unique thermal behavior of ZrW2O8 and its phonon modes.

New research reveals phonons interact in complex ways affecting thermal properties.

Studying rapid dynamics in SrTiO3 reveals new material behaviors under THz radiation.

Researchers find promising 2D superconductors with high-temperature capabilities.

Research highlights the relationship between piezoelectric materials and the Casimir force.

New findings show superfluorescence in hybrid perovskite films at room temperature.

A study on how cold atoms behave when interacting with elastic membranes.

This study examines heat transfer between materials through phonons and their interactions.

Research on magnons and phonons opens new technology avenues.

New methods enhance understanding of phonon interactions with lattice defects in materials.

Aluminum nitride shows promise for efficient light-emitting devices.

Investigating interactions between light and sound for advanced applications in quantum technology.