Driving matter into new states
A unified theory shows how periodic light can mimic superconductivity and create a new hybrid mode: the Meissner polariton The post Driving matter into new states appeared first on...
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A unified theory shows how periodic light can mimic superconductivity and create a new hybrid mode: the Meissner polariton The post Driving matter into new states appeared first on...
Insider Brief PRESS RELEASE — Using finely tuned nanoscale building blocks, researchers from Brown University and the University of Michigan College of Engineering have stabilized...
A new method allows physicists to study fractional quantum Hall systems and anyon behaviour at unprecedented scale and accuracy The post Advanced simulations of exotic quantum matt...
New research explains how light can behave like a quantum fluid in semiconductors, opening up possibilities for new kinds of practical quantum light sources The post How do collisi...
Insider Brief PRESS RELEASE — In a new study published in Physical Review Letters, a team of the Nägerl group jointly with theory collaborator Alvise Bastianello from the CNRS a...
By stacking custom-designed silver nanoparticles like nanoscale LEGO bricks, scientists stabilized a mysterious crystal phase that had never been observed before. The material not...
Scientists have engineered a never-before-seen quantum state, uncovering a new phase of matter with hidden order beyond conventional theory. Researchers have shown that an unusual...
Scientists have finally captured a hidden state of matter, revealing a long-predicted phase with intriguing quantum potential. Researchers from Brown University and the University...
Researchers have shown that ultracold atoms can be driven into a strange new quantum state called a fractional Fermi sea, where particles organize themselves in unexpected ways. Th...
Physicists 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...
A sea of quantum weirdness.ScienceAlert stories are written, fact-checked, and edited by humans, never generated by AI. Don't miss a story, subscribe here.
In a groundbreaking development that challenges fundamental precepts of condensed matter physics, an international research consortium comprising scientists from Ondokuz Mayıs Uni...
Deliberately breaking crystal symmetry widens topological bandgaps in 2D magnets made from light elements, predicting quantum anomalous Hall insulators robust enough to survive far...
Scientists used muons to show how pressure makes tantalum disulfide superconduct in 3D at three times higher temperatures.
In a remarkable advancement that pushes the boundaries of quantum materials science, researchers have uncovered compelling evidence of two-component exciton Bose–Einstein condensat...
New technique allows researchers to probe the top layer of an atomically thin topological quantum material for the first time The post Encapsulation enhances surface structure imag...
New experimental evidence demonstrates that discrete space-time crystals can be realized in classical soft-matter systems, thereby moving beyond the traditional complexities of qua...
Author(s): Mark BuchananResearchers boosted the sensitivity for measurements of the motion of a levitated nanoparticle, with potential uses in dark matter searches.[Physics 19, 84]...
Трудно провести границу между явлениями квантовой и классической физики, но всегда хочется сделать это поближе к человеческому восприятию мира. Квантовый мир проявляет сказочные св...
Author(s): Ryan WilkinsonAtomic-scale measurements show that vibrational excitations can cause electrons to move in bunches.[Physics 19, s75] Published Wed Jun 10, 2026
Author(s): Ryan WilkinsonA laser-based approach rapidly injects charge into moiré materials and drives metal-to-insulator transitions.[Physics 19, s67] Published Tue May 19, 2026
Scientists have uncovered unexpected quantum complexity inside cobalt, a metal long thought to be fully understood. Advanced measurements revealed a dense network of topological el...
The ordinary graphite in pencil lead is proving to be surprisingly multifaceted at the microscale. In a study appearing today in the journal Nature, MIT researchers report that a...
Author(s): Sophia ChenUsing atoms in two different highly excited states enables quantum bits that are both long-lived and manipulable.[Physics 19, s63] Published Wed May 20, 2026
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