Latest Articles for Conductance

Scientists study the anti-Pfaffian state using quantum point contact techniques.

This study examines how electron spins influence conductance in a quantum system.

New insights into Josephson junctions using nanowires for quantum computing.

Research enhances design of GNRs for efficient electronic circuits.

Researchers enhance stability of quantum systems using three-dot Kitaev chains.

A look into ultraclean Andreev interferometers and their role in superconductivity.

A study on how altermagnets and superconductors interact to improve electronics.

Gramicidin's unique structure shows promise for new antimicrobial therapies.

This article explores how ion channels shape neuron behavior despite variability.

Examining the role of charge dynamics in enhancing quantum dot performance.

RealTimeTransport offers insights into quantum transport for modern electronic systems.

This article studies how random walkers move in Galton-Watson trees with Dirichlet environments.

Examining how conical shapes influence electron behavior in quantum rings.

Research into hybrid systems reveals unusual electron behaviors and potential technological advancements.

Research reveals unique behaviors of electricity in open quantum rings.

Investigating Majorana zero modes in quantum dot-superconductor systems for future technologies.

Exploring unique properties of Majorana bound states in superconducting materials.

Research reveals how specific points affect electricity flow in quantum materials.

ELEQTRONeX enhances understanding of non-equilibrium transport in nanomaterials.

Study of gold and silver atomic contacts under magnetic influence.

Hybrid metal-semiconductor devices reveal complex electron behaviors under varying conditions.

New research shows carbon nanoscrolls can greatly enhance electrical conductance under magnetic influence.

Exploring how strain effects in SWCNTs can transform electronic devices.

Exploring how magnetism influences current flow in twisted Weyl semimetals.

Y-Drop improves dropout by focusing on neuron importance, enhancing model performance.

Exploring new methods and applications for clustering in graph theory.

Research shows how carbon nanotubes can control electron flow.

A look at how magnetic domain walls interact with electrons in materials.

A look into particle behavior in different environments using a mathematical model.

Investigating the invasion process of Toxoplasma gondii and its effects on host cells.

Exploring the unique conductance properties of amorphous topological insulators.

Study reveals key factors affecting electrical conductance in MoS₂ nanosheets.

A look into a new approach for studying electron behavior with superconductors.

Explore the fascinating properties of twisted bilayer graphene and its potential applications.

New methods are improving quantum devices using automation and machine learning.

Research reveals surprising behaviors in superconductors under magnetic fields.

Discover the fascinating movement of fermions in quantum systems.

Explore the strange behaviors of fast particles and super-periodic potentials.