Latest Articles for Material Science

A new method enhances the efficiency of solving the Kohn-Sham equation.

New studies challenge the magnetic behavior of RuO2, suggesting it lacks long-range order.

A new approach improves energy minimization in molecular studies.

Researchers investigate exciton condensates in double-bilayer graphene under varying conditions.

A look into the properties and transformations of NiFeGa alloys.

Research highlights the potential of Pr-doped NASICON for energy storage.

Investigating quantum quenches in topological materials reveals unique behaviors and properties.

Research reveals unique behaviors of fermionic impurities in quantum droplet systems.

This article discusses how solvent choice affects block copolymer phase separation.

Researchers improve methods for studying open quantum systems and their interactions.

A study on how water droplets affect ice accumulation on different structures.

An overview of Chern insulators, vortex functions, and their electronic behaviors.

Examining the causes and implications of Low Energy Excess in low threshold calorimeters.

Discover the potential of moire materials and their unique electronic states.

Combining approaches to enhance predictions of substance interactions.

Research reveals the significance of phase changes in Rhenium disulfide for advanced applications.

New techniques improve nuclear spin measurements in solid samples.

Scientists propose a novel way to create single mid-infrared photons for advanced applications.

This article discusses fluid behavior in narrow spaces between angled walls.

Coded apertures improve depth resolution in microscopy for analyzing tiny samples.

An overview of Material Point Methods and their applications in studying materials.

Exploring how strain and lattice relaxation affect twisted bilayer graphene's electronic behavior.

Investigating long-range order breakdown in quantum antiferromagnets at zero temperature.

Examining how quantum mechanics affects silicon carbide properties and applications.

Examining the structure and function of one-dimensional photonic crystals.

Exploring exciton dissociation for better solar cells and LEDs.

Discover how temperature differences allow tiny objects to move on their own.

Research on deuteron interactions with molybdenum is essential for nuclear energy safety.

A look at how random movements impact connectivity in systems.

Discover how particles behave when moving between different mediums.

A look into the intriguing properties of pseudospin density waves in 2D electron systems.

Research examines the magnetic and electronic behaviors of AgCrSe2 material.

Neural wave functions and Pfaffians enhance quantum chemistry predictions significantly.

Investigating the superconducting properties and complexities of Sr2RuO4.

Examining how elastic waves lose energy based on material frequency.

New methods enhance the performance of nanomechanical sensors through thermal modeling and Kalman filtering.

Investigating the unusual arrangements of lithium and sodium when cooled.

Exploring the role of frustrated magnets in advancing low-temperature refrigeration.

A method to find hidden cracks using sound waves enhances safety and inspection processes.

Improving velocity measures enhances particle behavior simulations in various scientific fields.