Latest Articles for Phonons

Explore how DFPT advances the study of phonons in materials.

A look into the interplay between light and mechanical movement in quantum mechanics.

Study reveals how particles behave at interfaces between different materials.

This article examines how sound waves diminish in disorganized materials.

Exploring how quantum paraelectric metals enhance spin transport through unique phonon interactions.

Exploring how cavity magnomechanical systems generate and manage entropy through energy interactions.

Research into phonons and 2DEG holds promise for quantum technology advances.

Exploring the unique superconducting properties of twisted bilayer graphene.

A look into how doping affects superconductivity in cuprates.

A new framework studies heat movement in insulators for improved material efficiency.

Discover the fascinating properties and formation of quasicrystals.

A machine learning approach enhances predictions of solid-state material behavior.

SiV centers in diamonds offer potential for advanced quantum computing applications.

Exploring advancements in superconductors and their potential for future technologies.

Study reveals how light affects the electronic state of ZrTe.

Researchers uncover unique wobbling motions in Palladium, revealing new atomic behaviors.

Study reveals how magnetic order affects electron and phonon behavior in MnBiTe.

Exploring quantum dots' unique properties and their potential in communication and technology.

Research reveals potential for improved light conversion in carbon nanotubes.

Exploring the role of spin in high-harmonic generation under laser excitation.

New findings challenge our understanding of cadmium nuclei and their unusual behaviors.

Researchers use light in cavities to alter superconductivity in materials.

This article examines gas behavior when interacting with solid surfaces.

A look into how Eliashberg theory explains electron-phonon interactions and superconductivity.

Scientists investigate how electrons and phonons influence materials' properties and applications.

Research reveals unique interactions in magnetism that could change technology.

Research reveals how phonon interactions shape magnetic properties in unique materials.

Examining the causes and implications of Low Energy Excess in low threshold calorimeters.

Scientists propose a novel way to create single mid-infrared photons for advanced applications.

This article examines how rough surfaces affect phonon behavior in graphene.

Exploring exciton dissociation for better solar cells and LEDs.

New strategies enhance cooling efficiency in optomechanical systems.

Mechanical qubits show potential for faster processing and new applications in quantum technology.

Researchers combine diamond and piezoelectric materials for better phonon control in quantum computing.

Research reveals complexities of deconfined quantum critical points in materials.

New designs reduce thermal noise, enhancing quantum information transfer.

Study reveals how temperature and layers impact graphene phonon behavior.

A new method improves charge transport simulations in organic semiconductors, aiding device design.

Research reveals complex interactions in spin relaxation and their implications.

Research reveals key phonon contributions to superconductivity in twisted bilayer graphene.