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Condensed Matter news
Investigating quantum and molecular plumbing in nanofluidics research
Our body contains an intricate system of tiny vessels through which blood, water and other molecules flow. When the size of the pipes shrinks to the nanoscale, where only a few molecules can fit side by side, the classical ...
Condensed Matter
23 hours ago
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Electrically tunable spin polarization in graphene opens path toward low-power spintronic devices
Researchers at the National Graphene Institute, in collaboration with the National University of Singapore, have shown that the magnetic behavior of electrons in graphene can be precisely controlled using electricity, revealing ...
Condensed Matter
Jun 18, 2026
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Laser pulses set layered metals vibrating 1 trillion times per second, revealing electron-driven motion
How does light turn into motion within a metal? A team of researchers from European XFEL, the University of Potsdam and other participating institutions has shown that ultrashort optical laser pulses can trigger extremely ...
Condensed Matter
Jun 18, 2026
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How to train your magnet: Excitons as a new knob for magnetic control
Scientists can learn a lot about a quantum material by watching how it responds to light. In magnetic semiconductors, one especially useful messenger is the exciton: a pairing of a negatively charged electron and the positively ...
Condensed Matter
Jun 18, 2026
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Reversible chirality switching in MoS₂ generates spin currents without magnets
A newly developed method allows researchers to dynamically switch chirality—a particular lack of mirror symmetry—to generate spin currents in semiconductors, researchers from Science Tokyo report. Their approach relies on ...
Condensed Matter
Jun 17, 2026
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Quantum Hall effect gains a new twist in graphene moiré systems
Physicists have long been drawn to the nonlinear Hall effect: a subtle variant of the classical Hall effect, in which an electric voltage appears perpendicular to a current flowing through a material. Unlike its classical ...
Random deformation lets glassy materials store precise mechanical memories, simulations reveal
Amorphous materials such as glass are solids whose internal structure lacks a repeating pattern. Their molecules are arranged in a random and irregular way. Surprisingly, these disordered materials can "remember" past mechanical ...
Condensed Matter
Jun 16, 2026
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High degree of quantum entanglement detected for first time in centimeter-sized crystal of strange metal
Many quantum effects can be observed only when a small number of particles is studied—individual atoms, molecules or photons, for example, carefully shielded from the rest of the world. But what about macroscopic objects, ...
Condensed Matter
Jun 16, 2026
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Physicists identify upper limit to resistivity in a pure metal
Experimental atomic physicists have discovered there is a maximum amount of electrical resistance, or resistivity, that can result from collisions between electrons.
General Physics
Jun 16, 2026
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Intermolecular collisions may explain why organic radical fluids become unusually magnetic
Certain substances can become magnetic when exposed to an external magnetic field. Magnetic susceptibility measures how easily a material can be magnetized. Materials known as organic radicals have been noted to possess anomalously ...
Condensed Matter
Jun 16, 2026
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Quasi-1D material unlocks electric control of charge waves beyond standard limits
The ability to control the movement of negatively charged particles (i.e., electrons) is central to the functioning of all modern electronic devices. This control is typically attained using a gate, an electrode via which ...
Bidirectional manipulation of gate-free quantum electronic states via semiconductor interface engineering
A recent study published in Nature Communications demonstrates precise control over electron spatial arrangement in two directions simultaneously—without any applied voltage—through interface engineering between semimetal ...
Condensed Matter
Jun 13, 2026
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Newly synthesized fullerene material remains metallic even under low temperatures
An international team whose research was coordinated by Osaka Metropolitan University (OMU) has reported the survival of metallic behavior in the strongly correlated molecular material ytterbium cesium fulleride (Yb₂CsC₆₀). ...
Condensed Matter
Jun 11, 2026
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AI helps reveal large-scale quantum effects hidden in stacked atomic sheets
Quantum materials are a class of exotic materials with special properties that are governed by quantum mechanics rather than classical physics. Those properties—like superconductivity, entanglement and unusual forms of magnetism—often ...
Condensed Matter
Jun 10, 2026
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Majorana modes withstand disorder in atomic chains, boosting fault-tolerant quantum computing
Quantum computers—systems that process information and perform computations by leveraging the principles of quantum mechanics—could solve some tasks faster and more effectively than classical computers. While some studies ...
Quantum witness technique reveals spinons in quantum spin liquid candidate
Physicists at University College Cork have developed a new approach in the search for a quantum spin liquid, a long-sought state of quantum matter resembling a magnetic liquid whose quantum properties mean it never freezes. ...
Condensed Matter
Jun 10, 2026
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Physicists observe synchronized quantum dance of excitons and phonons
An international team of researchers has reported a major advance in understanding quantum dynamics in semiconductor materials. They directly observed how excitons and phonons evolve together in perovskite nanocrystals, revealing ...
Condensed Matter
Jun 9, 2026
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New cryogenic silicon carbide hardware addresses quantum computing bottleneck
Researchers from the Department of Electrical and Computer Engineering in the Faculty of Engineering at the University of Hong Kong (HKU) and the Centre for Advanced Semiconductors and Integrated Circuits (CASIC) have achieved ...
Condensed Matter
Jun 8, 2026
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Nickelate superconductors share a common electronic fingerprint
Superconductors, materials that conduct electricity with zero electrical resistance at specific temperature ranges, have proved very promising for the development of quantum computers and other cutting-edge technologies. ...
Physicists discover attractive forces between molecular condensates may cause running off
Inside cells, certain functions are carried out by locally adjusting molecular composition. This condensation of material results in the formation of dense droplets that can dynamically rearrange. Because of this, interactions ...
General Physics
Jun 5, 2026
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More news
Better math discriminates exotic from classical materials
Diamond quantum sensor could reveal elusive altermagnets
Cobalt honeycombs open a new path to quantum computing
Memory-preserving transistors could bypass the Boltzmann limit
The strange quantum property of tomorrow's insulator
Collective vibrations unlock fast ion flow in superionic crystals
New three‑dimensional magnetic structure discovered with laser light
The complete evolution of spin glass from order to chaos
Other news
Scientists create optical skyrmions using a two-century-old light phenomenon
Twisted WSe₂ reveals elusive charge-neutral quantum modes
3D atomic rearrangement creates 40,000 quantum defects in 40 minutes
Women negotiate as effectively as men—but leave people happier
Modeling nuclear fusion at lightning speed
