Last update: 15 hours ago

Physicists discover and explain unexpected magnetism in atomically thin material

Condensed Matter news

Physicists discover and explain unexpected magnetism in atomically thin material

MIT physicists have created a new ultrathin, two-dimensional material with unusual magnetic properties that initially surprised them before they went on to solve the complicated puzzle behind those properties' emergence. ...

Condensed Matter

15 hours ago

Quantum computer helps to answer questions on lattice gauge theory

Science is always looking for more computing power and more efficient tools capable of answering its questions. Quantum computers are the new frontier in data processing, as they use the quantum properties of matter, such ...

Condensed Matter

16 hours ago

Physicists experimentally observe topological defects in glasses for the first time

The amorphous state of matter is the most abundant form of visible matter in the universe, and includes all structurally disordered systems, such as biological cells or essential materials like glass and polymers.

Condensed Matter

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18 hours ago

Valence electrons' role in magnetism of molecular crystals explored

Molecular crystals with conductivity and magnetism, due to their low impurity concentrations, provide valuable insights into valence electrons. They have helped link charge ordering to superconductivity and to explore quantum ...

Condensed Matter

Jan 10, 2025

Resistance measurement approach successfully observes topological signatures in multiterminal Josephson junctions

Multiterminal Josephson junctions, nanoscale devices with unique electronic properties, comprise non-superconducting metallic material coupled to three or more superconducting leads. These devices have proved to be promising ...

Condensed Matter

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Jan 10, 2025

Small changes can dramatically boost efficacy of piezoceramics

In a new study published in Nature, researchers at the Indian Institute of Science (IISc) and collaborators show that the efficacy of a commonly used piezoelectric ceramic material can be dramatically increased just by reducing ...

Condensed Matter

Jan 9, 2025

Mathematical methods point to possibility of particles long thought impossible

From the early days of quantum mechanics, scientists have thought that all particles can be categorized into one of two groups—bosons or fermions—based on their behavior.

Condensed Matter

Jan 8, 2025

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Physicists achieve simulation of non-Hermitian skin effect in 2D with ultracold fermions

A research team led by The Hong Kong University of Science and Technology (HKUST) has achieved a groundbreaking quantum simulation of the non-Hermitian skin effect in two dimensions using ultracold fermions, marking a significant ...

Condensed Matter

Jan 8, 2025

Proximity effect enables non-ferroelectric materials to gain new properties

Ferroelectrics are special materials with polarized positive and negative charges—like a magnet has north and south poles—that can be reversed when external electricity is applied. The materials will remain in these reversed ...

Condensed Matter

Jan 8, 2025

Liquid-like molecular dynamics explain solid-state battery material's superionic transport abilities

Researchers at Duke University have uncovered the molecular inner workings of a material that could underpin next-generation rechargeable batteries.

Condensed Matter

Jan 7, 2025

Smarter memory: Researchers introduce next-generation RAM with reduced energy consumption

Numerous memory types for computing devices have emerged in recent years, aiming to overcome the limitations imposed by traditional random access memory (RAM). Magnetoresistive RAM (MRAM) is one such memory type which offers ...

Condensed Matter

Jan 7, 2025

Spintronics memory innovation: A new perpendicular magnetized film

Long gone are the days where all our data could fit on a two-megabyte floppy disk. In today's information-based society, the increasing volume of information being handled demands that we switch to memory options with the ...

General Physics

Dec 27, 2024

Machine learning speeds up prediction of materials' spectral properties

Many techniques in computational materials science require scientists to identify the right set of parameters that capture the physics of the specific material they are studying. Calculating these parameters from scratch ...

Condensed Matter

Dec 23, 2024

142

Synchrotron study measures largest magnetic anisotropy of a single molecule

At the Berlin synchrotron radiation source BESSY II, the largest magnetic anisotropy of a single molecule ever measured experimentally has been determined. The larger a molecule's anisotropy is, the better suited it is as ...

Condensed Matter

Dec 23, 2024

Physicists measure quantum geometry for first time

MIT physicists and colleagues have for the first time measured the geometry, or shape, of electrons in solids at the quantum level. Scientists have long known how to measure the energies and velocities of electrons in crystalline ...

Condensed Matter

Dec 22, 2024

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New electron microscopy technique reveals complex spin structures at femtosecond timescales

Plasmons are collective oscillations of electrons in a solid and are important for a wide range of applications, such as sensing, catalysis, and light harvesting. Plasmonic waves that travel along the surface of a metal, ...

Condensed Matter

Dec 20, 2024

197

A new way of thinking about skyrmion motion could lead to more robust electronics

The future storage and processing of data stand to benefit greatly from tiny magnetic whirlpools known as skyrmions, which are robust against noise and may be useful in lower power consumption devices. The development of ...

Condensed Matter

Dec 19, 2024

In-plane magnetic fields reveal new Hall effect behaviors in advanced materials

In-plane magnetic fields are responsible for inducing anomalous Hall effect in EuCd2Sb2 films, report researchers from the Institute of Science Tokyo. By studying how these fields change electronic structures, the team discovered ...

Condensed Matter

Dec 19, 2024

Faster way to calculate electron structure makes it easier to discover new materials

Figuring out certain aspects of a material's electron structure can take a lot out of a computer—up to a million CPU hours, in fact. A team of Yale researchers, though, are using a type of artificial intelligence to make ...

Condensed Matter

Dec 19, 2024

Optical spring enables programmable defect mode in new mechanical crystal

Mechanical crystals, also known as phononic crystals, are materials that can control the propagation of vibrations or sound waves, just like photonic crystals control the flow of light. The introduction of defects in these ...

Condensed Matter

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Dec 19, 2024

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