Latest Articles for Materials Science

Exploring the role of defects in tubular crystals and their applications.

Discover the potential of perovskite nanocrystals in electronic devices.

A study on how randomness affects spin-2 chains in quantum materials.

A study on how BC408 performs when exposed to proton radiation.

Exploring the adaptation processes of physical systems through feedback and structure.

A study of two elastic rods and a spring's behavior under various forces.

Niobium halides exhibit unique properties promising for advanced electronics.

This study focuses on electron behavior transitions in materials.

A look at quantum systems and their unique properties influenced by interactions.

Examining the behavior of particles in confined spaces and its implications.

Innovative QMC algorithm efficiently simulates Bose-Hubbard model on any graph.

Learn how hydrogels quickly react to changes for various practical uses.

An overview of viscoelastic materials and their behavior under stress.

A novel method for analyzing truss structures enhances efficiency and reduces computational costs.

Study reveals unique behaviors of noncentrosymmetric superconductor junctions, highlighting nonreciprocity.

Explore the fundamental ideas behind thermodynamic limits and electronic structure models in materials science.

Research reveals how doping and pressure alter (Mn Mg) Si Te's magnetic and electronic behavior.

A new method merges atomistic and continuum modeling for better material insights.

This article explores how quantum dots behave in various conditions and their practical uses.

Recent studies enhance understanding of aluminum properties using X-ray techniques.

Researchers create a quantum simulator with molecular qudits, enhancing quantum task performance.

This piece explores ferromagnetism in moiré materials and its implications for technology.

Researchers investigate the unique properties of infinite-layer nickelates and their superconductivity.

This article explores non-Hermitian topological phenomena in dissipatively coupled SSH models.

An overview of superconductors, electron pairing, and their implications.

Researchers study strain effects in bismuth for advanced electronic applications.

Exploring the unique properties of Weyl semimetals through the study of ReO.

This study examines how lanthanum affects the mixed-valence state of SmB.

Exploring the connection between superconductivity and improper orders in materials.

Exploring how biological materials change shape and behave under stress.

Examining how heat transfers between closely spaced metal surfaces.

Investigating frustrated spin systems using tensor networks reveals complex behaviors and phase transitions.

Discover how piezoelectric actuators transform electrical energy into precise mechanical movements.

MatSci ML standardizes datasets for efficient materials modeling using machine learning techniques.

Exploring the unique properties and potential of magic-angle twisted bilayer graphene.

Breather solutions reveal complex behavior in nonlinear systems through unique oscillating patterns.

Investigating the role of multifractality in quantum particle behavior and applications.

Research reveals exciting properties of MnSe's wurtzite phase.

Researching how disorder affects electron behavior and localized states.

Research shows machine learning can predict non-Hermitian phase boundaries using Hermitian data.