Latest Articles for Electronics

Research on SrRuO reveals complex behaviors in superconductivity and electron interactions.

X-ray multibeam ptychography allows faster, non-destructive imaging of complex materials.

Research reveals complexities in phase transitions, highlighting electron-lattice interactions.

Research reveals how external forces affect the magnetism of biphenylene network carbon material.

SolderlessPCB enables easy circuit building with reusable components, reducing electronic waste.

Researchers uncover unique electron behaviors in two-dimensional Dirac materials.

This article discusses unique behaviors of electrons in Dirac materials under electric fields.

Tilted P-N junctions enhance valley polarization in graphene for better electronic devices.

A look into how altermagnetism enhances superconductivity and its applications.

New insights into Josephson junctions using nanowires for quantum computing.

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

Exploring the impact of defects and polarons on lithium tantalate's properties.

Barium titanate nanocrystals offer unique properties for advanced electronic applications.

Altermagnetism offers new insights into magnetic materials with potential spintronic applications.

A look into electron interactions in flat-band materials and their transport properties.

Exploring how electrons move in metals and its implications for technology.

New model improves circuit design prediction through directed hypergraphs.

A look into the workings and benefits of MRAM technology in data storage.

Research enhances design of GNRs for efficient electronic circuits.

Examining how magnetic fields affect resistance in certain materials.

Research focuses on optimizing heat control in quantum thermal devices for various applications.

Research reveals unique properties and interactions in semiconductor moiré materials.

Researchers improve qubit operations and minimize leakage errors in quantum computing.

This article explores cotunneling effects in spintronic junctions and their impact on electron transport.

A look into the processes and significance of CNT forests.

Research reveals insights into surface states affected by spin-orbit coupling.

Learn about superconducting diodes and their impact on electronic technology.

Research focuses on improving qubit manipulation techniques using semiconductor materials.

Fmm LuHN shows promise for superconductivity at near-room temperatures.

Exploring the behavior and impact of collective quantum excitations in materials.

Insights into tungsten atom movement in layered materials and its implications.

Exploring unique properties of magnetic Weyl-Kondo semimetals influenced by electron interactions.

This study examines nonlinear RLC circuits, focusing on diode effects and circuit behavior.

A new method enhances MIM accessibility and accuracy with silicon cantilever probes.

Research reveals how stacking affects the electronic properties of NbSe layers.

Researchers explore unique states of matter in graphene and their potential applications.

SmCoIn5 showcases intriguing electronic and magnetic properties due to electron interactions.

Study reveals how light affects the electronic states of 1T-VSe material.

Research advances the study of Andreev bound states for future quantum technologies.

Examining nonlinear behaviors in three-dimensional materials under magnetic influence.