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Study proposes new mechanism underpinning intrinsic strange metal behavior

Condensed Matter news

Study proposes new mechanism underpinning intrinsic strange metal behavior

Quantum critical points are thresholds that mark the transition of materials between different electronic phases at absolute zero temperatures, around which they often exhibit exotic physical properties.

Condensed Matter

feature

8 hours ago

Thermopower-based technique can detect fractional quantum Hall states

If one side of a conducting or semiconducting material is heated while the other remains cool, charge carriers move from the hot side to the cold side, generating an electrical voltage known as thermopower.

Condensed Matter

feature

Mar 28, 2025

108

Listening to quantum atoms talk together thanks to acoustics

What happens when a quantum physicist is frustrated by the limitations of quantum mechanics when trying to study densely packed atoms? At EPFL, you get a metamaterial, an engineered material that exhibits exotic properties.

Condensed Matter

Mar 25, 2025

110

'Half ice, half fire': Physicists discover new phase of matter in a magnetic material

Two scientists at the U.S. Department of Energy's (DOE) Brookhaven National Laboratory have discovered a new phase of matter while studying a model system of a magnetic material.

Condensed Matter

Mar 25, 2025

179

Meters closer, miles faster: A novel cryogenic in-memory computing scheme to bridge AI with quantum computing

Scholars at the School of Engineering of the Hong Kong University of Science and Technology (HKUST) have unveiled an innovation that brings artificial intelligence (AI) closer to quantum computing—both physically and technologically.

Condensed Matter

Mar 24, 2025

Patterned spintronic emitter enables room-temperature THz polarization control for wireless and biomedical applications

Terahertz (THz) waves are located between microwaves and infrared light in the electromagnetic spectrum. They can pass through many materials without causing damage, making them useful for security scanning, medical imaging, ...

Condensed Matter

Mar 24, 2025

Looking for elusive quantum particles? Try a bad metal, researchers suggest

Metals, as most know them, are good conductors of electricity. That's because the countless electrons in a metal like gold or silver move more or less freely from one atom to the next, their motion impeded only by occasional ...

Condensed Matter

Mar 24, 2025

141

Engineers redefine how heat transfers on advanced surfaces

When University of Texas at Dallas researchers tested a new surface that they designed to collect and remove condensates rapidly, the results surprised them. The mechanical engineers' design collected more condensates, or ...

Condensed Matter

Mar 24, 2025

High-precision quantum gates with diamond spin qubits achieve error rate below 0.1%

Researchers at QuTech, in collaboration with Fujitsu and Element Six, have demonstrated a complete set of quantum gates with error probabilities below 0.1%. While many challenges remain, being able to perform basic gate operations ...

Condensed Matter

Mar 24, 2025

Cutting-edge experiments reveal 'hidden' details in transforming material with implications for faster microelectronics

Phase changes are central to the world around us. Probably the most familiar example is when ice melts into water or water boils into steam, but phase changes also underlie heating systems and even digital memory, such as ...

Condensed Matter

Mar 21, 2025

Machine learning uncovers hidden heat transport mechanisms in organic semiconductors

Complex materials such as organic semiconductors or the microporous metal-organic frameworks known as MOFs are already being used for numerous applications such as OLED displays, solar cells, gas storage and water extraction. ...

Condensed Matter

Mar 20, 2025

A possible way to generate electricity using Earth's rotational energy

A trio of physicists from Princeton University, CIT's Jet Propulsion Laboratory and Spectral Sensor Solutions, all in the U.S., is proposing the possibility of generating electricity using energy from the rotation of the ...

General Physics

report

Mar 20, 2025

474

AI helps design Fe-based amorphous alloys for efficient high-power electronics

Researchers from the Ningbo Institute of Materials Technology and Engineering of the Chinese Academy of Sciences have leveraged artificial intelligence (AI) to design a novel series of Fe-based amorphous alloys. These materials ...

Condensed Matter

Mar 19, 2025

Good vibrations: Scientists discover a method for exciting phonon-polaritons

Imagine a world where your phone stays cool no matter how long you use it, and it's also equipped with tiny sensors that can identify dangerous chemicals or pollutants with unparalleled sensitivity and precision.

Condensed Matter

Mar 19, 2025

Quantum heat dynamics toggled by magnetic fields in semimetal ZrTe₅

Scientists know well how conventional materials conduct heat. However, things are not as straightforward under extreme conditions such as temperatures close to absolute zero combined with strong magnetic fields, where strange ...

Condensed Matter

Mar 19, 2025

Thermomajorization theory provides new framework for quantifying mysterious Mpemba effect

The Mpemba effect is an intriguing physical phenomenon that causes some systems to cool faster when they are hot than when they are warm or colder. This effect was observed in various systems, including water, which sometimes ...

General Physics

feature

Mar 19, 2025

Researchers advance substrate engineering pathways to improve power electronics

As the growth in global electricity need and supply continues to accelerate, efficient power electronics will be key to improving grid efficiency, stability, integration, and resilience for all energy sources.

Condensed Matter

Mar 18, 2025

An acoustic Ising machine: Novel system tackles hard combinatorial problems

Researchers at the University of Gothenburg have developed a novel Ising machine that utilizes surface acoustic waves as an effective carrier of dense information flow. This approach enables fast, energy-efficient solutions ...

Condensed Matter

Mar 17, 2025

Q&A: Crystallizing time—physicists create a new phase of matter in the center of a diamond

In their ongoing efforts to push the boundaries of quantum possibilities, physicists in Arts & Sciences at Washington University in St. Louis have created a new type of "time crystal," a novel phase of matter that defies ...

Condensed Matter

Mar 17, 2025

The discovery of pressure-driven charge amorphization: A new twist in material transformations

Researchers have uncovered a surprising phenomenon in the material BiNiO3: when subjected to high pressure at low temperatures, its well-arranged electrical charges are disrupted, leading to a disordered "charge glass" state.

Condensed Matter

Mar 17, 2025

Reliable science takes time. But the current system rewards speed

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Study proposes new mechanism underpinning intrinsic strange metal behavior

8 hours ago

How humans across cultures and historical periods conceptualize relationships

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Farewell, Gaia! Spacecraft operations come to an end

4 hours ago

Plant stomata pressure dynamics illuminated by laser-based method offer water efficiency insights

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Condensed Matter

The first observation of amplified spontaneous emission from electron-hole plasma in 2D semiconductors

Condensed Matter

Understanding the origin of magnetic moment enhancement in novel alloys

Condensed Matter

Olympicene molecular chains create quantum spin systems with spintronics applications

Condensed Matter

Physicists uncover two superconducting regimes in a Kagome lattice superconductor

Condensed Matter

A new kind of Hall effect: Physicists reveal potential of noncollinear antiferromagnets in spintronics

Condensed Matter

Spinning, twisted light could power next-generation electronics

Condensed Matter

Reading magnetic states faster—in far infrared

Condensed Matter

First observation of Bose–Einstein condensation of two-magnon bound state in spin-1 triangular lattice reported

Condensed Matter

Revealing the hidden symmetries of a superconductor

Condensed Matter

Researchers achieve record-high electrostrain in lead-free piezoceramics

Condensed Matter

Simplified method for observing electron motion in solids unveiled

Condensed Matter

Water movement on surfaces makes more electric charge than expected

Condensed Matter

Quantum tornadoes in momentum space: First experimental proof of a new quantum phenomenon

Condensed Matter

Researchers achieve single-domain ferroelectric thin films through simple temperature control

Condensed Matter

Ultra-thin bismuth holds unexpected promise for green electronics

Condensed Matter

Crystal lattice at a distance: Moiré material method makes it easier to study interactions between electrons

Condensed Matter

Controlling electrons in molecules at ultrafast timescales with tailor-made terahertz light pulses

Condensed Matter

Room-temperature superconductors: Fundamental constants suggest they could exist within our universe

Condensed Matter

An unexpected connection between the equations for crystalline lattice defects and electromagnetism

Condensed Matter

Tunable asymmetric hysteresis loop: Researchers develop method to control magnetic reversal in Weyl semimetal

Other news

Social Sciences

How humans across cultures and historical periods conceptualize relationships

Molecular & Computational biology

Plant stomata pressure dynamics illuminated by laser-based method offer water efficiency insights

Space Exploration

Rocket carrying European orbital vehicle crashes after launch

Quantum Physics

Scientists develop method to speed up quantum measurements using space-time trade-off

Analytical Chemistry

Palladium-liquid gallium catalyst transforms chemical manufacturing, boosting speed, safety and sustainability

Plants & Animals

Study reveals tool use in tropical fish species

Astronomy

Supernova archaeology: Finding clues in the ruins of an ancient dead star with Chandra

General Physics

Quantum entanglement reveals strange metals' unique electron behavior at critical point

Other

Saturday Citations: When the universe was young and cute. Plus: Southern Ocean cooling trend explained

Molecular & Computational biology

How a critical enzyme keeps potentially dangerous genes in check

Plants & Animals

Sneaky weasels caught on camera with surprising bait choice

Earth Sciences

Nuclear monitoring system suggests landslide cut off internet in west Africa

Social Sciences

Even atheists in secular countries show intuitive preferences for religious belief

Ecology

After 7,000 years without light and oxygen in Baltic Sea mud, researchers bring prehistoric algae back to life

Astronomy

Experiment shows theory describing formation of interstellar benzene does not actually produce benzene

Superconductivity

The first comprehensive characterization of unconventional superconductivity arising from multipolar moments

Social Sciences

Lyft drivers study reveals racial profiling by law enforcement

General Physics

Physicist revisits the computational limits of life and Schrödinger's essential question in the era of quantum computing

Plasma Physics

Commercial fusion power plant now closer to reality

Molecular & Computational biology

A protein folding mystery solved: Study explains core packing fractions

Condensed Matter

Scientists unravel spiraling secrets of magnetic materials for next-generation electronics

Condensed Matter

Researchers discover magnetic equivalent of the Lyddane-Sachs-Teller relation

Condensed Matter

Exploring quantum materials: Resonant inelastic X-ray scattering captures microscopic, rapidly changing properties

Condensed Matter

Atomically thin NbSe₂ demonstrates resilient superconducting fluctuations

Condensed Matter

Unraveling how a 'magnetic twist' induces one-way electric flow

Condensed Matter

Physicists find unexpected crystals of electrons in new ultrathin material

Condensed Matter

Hofstadter's butterfly: Quantum fractal patterns visualized

Condensed Matter

Graphene's quantum spin injection promises energy-efficient spintronics

Condensed Matter

Research illuminates the path to superior electro-optic performance in aluminum scandium nitride alloys

General Physics

Magnetic 'invisibility cloak' hides obstacles within particle streams

Biotechnology

New light-controlled CRISPR tool enhances precision in genetic research

Earth Sciences

How the failure of two dams amplified the Derna Flood tragedy

Bio & Medicine

Novel class of zwitterionic phospholipids enhances mRNA delivery

Biochemistry

Active compounds in Piper longum fruits show potential for functional foods and medicine

Biotechnology

Safer seafood could be on the way—cell-cultivated fish offers hope for seafood allergy sufferers

Molecular & Computational biology

Discovery of compounds that delay flowering could boost crop yields

Bio & Medicine

Scientists demonstrate pre-clinical proof of concept for next-gen DNA delivery technology

Plants & Animals

Fish use sharks as shields to ambush prey, study reveals

Environment

Arctic sea ice hits record low for its usual peak growth period

Evolution

Cruciferous plants' pungent defense mechanism: How repurposed stomatal genes also fend off herbivores

Multiferroic material can function up to 160°C, opening doors for advanced spintronics

While most multiferroics can't operate above room temperature, a team of researchers at Tohoku University demonstrated that terbium oxide Tb2(MoO4)3 works as a multiferroic even at 160°C.

Condensed Matter

Jan 31, 2025

Simulation aligns skyrmion dynamics with real-time experiments

Skyrmions are nanometer- to micrometer-sized magnetic whirls that exhibit particle-like properties and can be moved efficiently by electrical currents. These properties make skyrmions an excellent system for new types of ...

Condensed Matter

Jan 30, 2025

A spintronic view of chiral molecules: Physicists verify chiral-induced spin selectivity effect

The role of electrons and their negative charge in electric current is well established. Electrons also exhibit other intrinsic properties that are associated, for example, with considerable potential for enhancing data storage ...

Condensed Matter

Jan 30, 2025

Ultrafast imaging advance tracks dark excitons precisely in time and space

How can the latest technology, such as solar cells, be improved? An international research team led by the University of Göttingen is helping to find answers to questions like this with a new technique. For the first time, ...

Condensed Matter

Jan 29, 2025

100

Using phononic bandgap materials to suppress decoherence in quantum computers

Quantum computers have the potential of outperforming classical computers on some optimization and computational tasks. Compared to classical systems, however, quantum systems are more prone to errors, as they are more sensitive ...

Condensed Matter

feature

Jan 29, 2025

145

Materials can remember a sequence of events in an unexpected way

Many materials store information about what has happened to them in a sort of material memory, like wrinkles on a once crumpled piece of paper. Now, a team led by Penn State physicists has uncovered how, under specific conditions, ...

Condensed Matter

Jan 29, 2025

Superionic compound with liquid-like dynamics shows promise as solid-state battery electrolyte

Superionic materials are a class of materials that simultaneously present properties that are characteristic of solids and liquids. Essentially, a set of ions in these materials exhibits liquid-like mobility, even if the ...

Condensed Matter

feature

Jan 29, 2025

New avenues in quantum research: Supramolecular chemistry detects qubit candidates

A Franco-German research team, including members from the University of Freiburg, shows that supramolecular chemistry enables efficient spin communication through hydrogen bonds. The work is published in the journal Nature ...

Condensed Matter

Jan 28, 2025

High-brilliance synchrotron radiation helps identify best composition for half-metal alloys

Half-metals are unique magnetic compounds that have been attracting interest in the development of mass-storage technologies. Some of the materials in the family of Heusler alloys were predicted to have a half-metallic nature, ...

Condensed Matter

Jan 28, 2025

Nonlinear optical crystal for ultraviolet lasers remains remarkably stable under extreme pressure

Researchers from Oakland University have made a significant breakthrough in the field of optical materials, unveiling the exceptional capabilities of Ba₃(ZnB₅O₁₀)PO₄ (BZBP). Although this transparent crystal closely ...

Condensed Matter

Jan 27, 2025

Using achiral hard banana-shaped particles to assemble skyrmions and blue phases

A research team has discovered that achiral hard banana-shaped particles can spontaneously form exotic structures like skyrmions and blue phase III phases. Skyrmions are tiny vortex-like structures found in various condensed-matter ...

Condensed Matter

Jan 27, 2025

Exploring a new qubit with the gemstone spinel

The gemstone spinel, known for its vibrant colors resembling gems such as rubies and sapphires, has now been shown to be capable of storing quantum information, making it a viable material in the field of quantum technology.

Condensed Matter

Jan 27, 2025

114

Engineering the first semimetallic Weyl quantum crystal

An international team of researchers led by the Strong Correlation Quantum Transport Laboratory of the RIKEN Center for Emergent Matter Science (CEMS) has demonstrated, in a world's first, an ideal Weyl semimetal, marking ...

Condensed Matter

Jan 24, 2025

123

Terahertz pulses induce chirality in a non-chiral crystal

Chirality refers to objects that cannot be superimposed onto their mirror images through any combination of rotations or translations, much like the distinct left and right hands of a human. In chiral crystals, the spatial ...

Condensed Matter

Jan 23, 2025

111

Electron spin resonance sheds light on tin-based perovskite solar cell efficiency

Perovskite solar cells are attracting attention as next-generation solar cells. These cells have high efficiency, are flexible, and can be printed, among other features. However, lead was initially used in their manufacture, ...

Condensed Matter

Jan 23, 2025

New electromagnetic material draws inspiration from the color-shifting chameleon

The chameleon, a lizard known for its color-changing skin, is the inspiration behind a new electromagnetic material that could someday make vehicles and aircraft "invisible" to radar.

Condensed Matter

Jan 22, 2025

Illuminating an asymmetric gap in a topological antiferromagnet

Topological insulators (TIs) are among the hottest topics in condensed matter physics today. They're a bit strange: Their surfaces conduct electricity, yet their interiors do not, instead acting as insulators. Physicists ...

Condensed Matter

Jan 21, 2025

Scientists harness the power of 'layered' crystals for energy innovation

University of Missouri scientists are unlocking the secrets of halide perovskites—a material that's poised to reshape our future by bringing us closer to a new age of energy-efficient optoelectronics.

Condensed Matter

Jan 21, 2025

Quantum 'umbilical cord' links metal and insulator states in many materials, study shows

A kind of umbilical cord between different quantum states can be found in some materials. Researchers at TU Wien have now shown that this "umbilical cord" is generic to many materials.

Condensed Matter

Jan 20, 2025

Peeling back the layers: Exploring capping effects on nickelate superconductivity

So-called "infinite-layer" nickelate materials, characterized by their unique crystal and electronic structures, exhibit significant potential as high-temperature superconductors. Studying these materials remains challenging ...

Condensed Matter

Jan 17, 2025