New breakthroughs in Floquet engineering and quantum spin liquids are allowing scientists to create 'illegal' forms of matter that could finally solve the stability crisis in quan…
Physicists have conjured exotic forms of matter that only exist when 'driven' by magnetic shifts, potentially solving the stability crisis in quantum computing.
Engineers at CU Boulder have developed a 'liquid metal' material made of interlocking staples that switches from rock-solid to fluid with a simple vibration.
Researchers led by Stockholm University used ultrafast X‑ray lasers to capture a long‑suspected ‘hidden’ liquid–liquid critical point in supercooled water; the finding reshapes ex…
New theoretical and experimental papers report exotic particles tied to lower or hidden dimensions — tunable one‑dimensional anyons in cold‑atom systems and a proposal that mass c…
A theoretical and experimental roadmap shows how coherent three‑body recombination can turn a gradual atomic-to‑molecular crossover into an abrupt, bistable first‑order transition…
A new matter‑wave 'many‑body phase microscope' gives researchers direct access to phase and long‑range quantum correlations in cold‑atom lattices, opening a path to image order pa…
A Vienna experiment shows nanoscale metal clusters made of thousands of atoms produce clear quantum interference, tightening limits on models that would force larger objects to be…
At CES 2026 in Las Vegas, BiLight Innovations unveiled three perovskite-based, flexible photovoltaic products aimed at homes, offices and outdoor users—claiming rollable curtains,…
Big tech labs are using generative and equivariant AI to predict millions of new stable crystals and atomic-scale behaviors, turning materials discovery from decades-long craft in…
Documents and published papers show the Australian National University continued joint metasurface research with scientists affiliated to Russia’s MEPhI and Kurchatov Institute wh…
A team at the Indian Institute of Science reports in Physical Review Letters (22 December 2025) that formulas Srinivasa Ramanujan discovered more than a century ago reappear insid…
A new preprint argues that a re-interpretation of Landauer conductance and a locally defined density of states resolve the quantum measurement problem and enable time travel via m…
Researchers at Fraunhofer in Dresden report a solid‑state lithium–sulfur cell that surpassed 600 Wh/kg in the lab, promising lighter, cheaper electric vehicles if the chemistry an…
Researchers at the Indian Institute of Science report that century-old series for π discovered by Srinivasa Ramanujan reappear inside modern high-energy physics — surfacing in con…
Researchers at TU Wien report that quantum correlations between particles can produce self-sustaining temporal order, challenging the view that such correlations only disrupt time…
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