Latest Articles for Electronics

A look into skyrmions and their impact on the topological Hall effect.

Study reveals how light can change material properties and symmetry.

Exploring unique behaviors and implications of the fractional quantum Hall effect.

This article examines how polar crystals affect electron flow in graphene.

Magnetic skyrmions could transform data storage and processing in electronics.

Investigating interparticle interactions in two-dimensional materials and their influence on the valley Hall effect.

Twisted 2D materials hold promise for future technology advancements.

Research reveals the magnetic and electronic traits of Cs Co S for future tech.

Learn how thermal expansion affects material design and applications.

Investigating the mixed-CDW phase in 1T-TaS₂ for future technology applications.

New findings on hematite enhance spintronics efficiency through spin-orbit torque.

Examining quantum dots for efficient thermoelectric cooling applications.

Exploring the potential of graphene in spintronic devices.

Doped topological insulators exhibit unique properties important for superconductivity and electronics.

Examining electron interactions in materials through the Hubbard model framework.

Research reveals unique properties of edge states in honeycomb structures and high-fold fermions.

New methods improve circuit simulation and device modeling efficiency.

Examining ferroaxial materials and their electric toroidal dipole properties for future applications.

Study reveals how charge carriers in graphene layers influence each other through Coulomb drag.

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

IrTe2's phase transitions reveal insights into its electronic behavior and potential applications.

Research on bilayer ReRAM could reshape energy-efficient computing.

Exploring the unique features of NbOCl monolayer in materials science.

Chiral tellurium showcases fascinating electrical behavior influenced by its structure and magnetic fields.

Simopt enhances FPGA design by leveraging simulation data for improved performance.

New method improves efficiency in electron simulations using Fourier neural operators.

Learn about the fascinating behavior of quantum wells in electronics and energy devices.

Researchers reveal complex behaviors in two-dimensional superconductors at material interfaces.

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

New neutron scattering techniques enhance skyrmion studies, improving spintronic device design.

Bilayer borophene shows promise for advanced electronic and quantum applications.

Research reveals new quantum states in materials through electron doping and moiré patterns.

Understanding qubit shuttling challenges and improving quantum information transport.

New designs in VCSELs improve data transmission quality and reduce noise.

Study reveals interactions of MoSe and CrGeTe under light and magnetic fields.

Research reveals how interfaces affect superconductivity in materials like FeSe and NdFeO.

Exploring the unique magnetic interactions of nanographenes for advanced technologies.

Investigating one-dimensional excitonic insulators for new electronic materials.

Research reveals how nickel substitution affects the magnetic properties of Sr(Co Ni)P.

Research reveals unique electronic states in AB-stacked MoTe/WSe materials.