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Anything-goes “anyons” may be at the root of surprising quantum experiments
Scientists just found a hidden quantum geometry that warps electrons
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MIT News | Massachusetts Institute of Technology · MIT physics, Research Laboratory of Electronics, Senthil Todadri, electron fractions, fractional quantum anomalous Hall effect, anyons, bosons, Fermions, superconductivity, Magnetism, quantum computing, stable qubits
ScienceDaily · Spintronics; Physics; Albert Einstein; Consumer Electronics; Spintronics Research; Computers and Internet; Hacking; Computer Modeling
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'''Article preview.'''<br>
'''Article preview.'''<br>
MIT theoretical physicists may have an explanation for the surprising observation that<br>
A hidden quantum geometry that distorts electron paths has finally been observed in<br>
superconductivity and magnetism can co-exist in some materials. They propose that<br>
real materials. This “quantum metric,” once thought purely theoretical, may<br>
under certain conditions, a magnetic material’s electrons could splinter into<br>
revolutionize electronics, superconductivity, and ultrafast devices.<br>
quasiparticles known as “anyons,” some of which could flow together without friction —<br>
an entirely new form of superconductivity.<br>
The article is featured here because it connects current quantum research with a<br>
The article is featured here because it connects current quantum research with a<br>
broader scientific or technological problem.<br>
broader scientific or technological problem.<br>
The preview highlights the main idea while leaving the detailed evidence, figures and<br>
The preview highlights the main idea while leaving the detailed evidence, figures and<br>
technical discussion to the original source.<br>
technical discussion to the original source.<br>
Topic area: MIT physics, Research Laboratory of Electronics, Senthil Todadri, electron<br>
Topic area: Spintronics; Physics; Albert Einstein; Consumer Electronics; Spintronics<br>
fractions, fractional quantum anomalous Hall effect, anyons, bosons, Fermions,<br>
Research; Computers and Internet; Hacking; Computer Modeling.<br>
superconductivity, Magnetism, quantum computing, stable qubits.<br>
The selected source is ScienceDaily; the full article link appears below this preview.<br>
The selected source is MIT News | Massachusetts Institute of Technology; the full<br>
The right-side image is selected from the same article URL when a usable article image<br>
article link appears below this preview.
is available.
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[https://news.mit.edu/2025/anything-goes-anyons-may-be-root-surprising-quantum-experiments-1222 Read the full article at MIT News | Massachusetts Institute of Technology ->]
[https://www.sciencedaily.com/releases/2025/09/250905112310.htm Read the full article at ScienceDaily ->]
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External source: MIT News | Massachusetts Institute of Technology. Selected external quantum article.
External source: ScienceDaily. Selected external quantum article.
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Credits: MIT News | Massachusetts Institute of Technology
Credits: ScienceDaily
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Revision as of 19:10, 20 May 2026

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Featured external quantum article

Scientists just found a hidden quantum geometry that warps electrons

ScienceDaily · Spintronics; Physics; Albert Einstein; Consumer Electronics; Spintronics Research; Computers and Internet; Hacking; Computer Modeling

Article preview.
A hidden quantum geometry that distorts electron paths has finally been observed in
real materials. This “quantum metric,” once thought purely theoretical, may
revolutionize electronics, superconductivity, and ultrafast devices.
The article is featured here because it connects current quantum research with a
broader scientific or technological problem.
The preview highlights the main idea while leaving the detailed evidence, figures and
technical discussion to the original source.
Topic area: Spintronics; Physics; Albert Einstein; Consumer Electronics; Spintronics
Research; Computers and Internet; Hacking; Computer Modeling.
The selected source is ScienceDaily; the full article link appears below this preview.
The right-side image is selected from the same article URL when a usable article image
is available.

External source: ScienceDaily. Selected external quantum article.

Credits: ScienceDaily

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