Latest Articles for Electronics

This study examines how thermodynamics interacts with charge flow in quantum dots.

Research on NbS and MoSe/WSe materials offers new electronic properties.

Exploring the unique properties and applications of CuInP S in technology.

RowPress poses new risks to data safety in modern DRAM systems.

Examining the distinct properties and structures of liquid bismuth for technological advancements.

Chirality enhances thermal management and magnon transport in electronic devices.

Exploring new frameworks like WireMask-BBO for better chip design efficiency.

Study explores spin currents in vanadium and platinum thin films using the Kerr effect.

Explore the unique role of nonlinear capacitors in modern technology.

Study reveals non-reciprocal electron transport in 2DEG influenced by magnetic fields.

Using light-induced strain to manipulate electronic properties of topological insulators.

Learn about the unique properties and applications of multi-Weyl semimetals.

Exploring the unique properties of antiferromagnets and their potential applications.

A method for assembling 2D materials with pristine surfaces.

Research shows how two materials can improve spin manipulation for electronics.

Discover how impurities in metals lead to unique electron behaviors.

Unlocking advancements in electronics through the unique behavior of electron spins.

Study of electronic excitations and their impacts in materials with broken inversion symmetry.

TWPAs enhance low-noise amplification for microwave experiments in quantum computing and astrophysics.

Research reveals unique electron behaviors in delta-doped LaSrIrO materials.

Understanding Hardware Trojans and their impact on electronic device security.

A look into quasiperiodic functions and their significance in science.

Examining how deep defects shape semiconductor properties and applications.

New findings on ruthenium ilmenites show unique electrical properties linked to structure.

Research focuses on new praseodymium-based materials using machine learning and DFT.

Study examines how chromium modifies strontium hexaferrite's structure and magnetic properties.

New research reveals unique behaviors of surface electrons in topological insulators with fractal dimensions.

Understanding the potential and challenges of spin-torque nano oscillators.

Exploring the impact of the intrinsic nonlinear Hall effect in 2D antiferromagnetic spintronics.

Study on tungsten layers for advanced technologies like spintronics.

New insights into thermoelectric materials could boost efficiency in energy applications.

Explore how Lifshitz transitions impact electron paths and metal conductivity.

Investigating the interactions between graphene edge states and superconductors reveals unique phenomena.

A new method improves accuracy in piezoelectric MEMS models using DPIM.

Research on vortex STOs shows promise for advanced computing using chaotic dynamics.

YbMnSb reveals insights into electron behavior influenced by its crystal structure and magnetic properties.

New flexible memristors can mimic neuron behavior through mechanical pressure.

Examining defects at the Si/SiO2 interface for better electronic devices.

Examining the role of surface dynamics in Plasma-Enhanced Atomic Layer Deposition.

A new flexible coaxial cable enhances performance in superconducting systems.