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Image from or related to the featured external quantum article.
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In Quantum Sensing, What Beats Beating Noise? Meeting Noise Halfway.
Researchers establish new basis for quantum sensing and communication
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NIST · Quantum science · 2025-09-10
MIT News | Massachusetts Institute of Technology · Moe Win, MIT AeroAstro, MIT LIDS, MIT IDSS, Quantum neXus Laboratory, quantum sensing, photon-varied Gaussian states (PVGSs), quantum communications, quantum information, non-Gaussian quantum states
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'''Article preview.'''<br>
'''Article preview.'''<br>
A team including scientists at NIST may have found a new way of dealing with noise at the<br>
Researchers have established a new basis for quantum sensing and communication. Their<br>
microscopic scales where quantum physics reigns.<br>
theoretical approach for generating quantum states could be crucial for many areas,<br>
The linked source provides the full context, figures and publication details for readers who<br>
ranging from fingerprinting the magnetic field of the Earth to enhancing astrophysical<br>
want to continue beyond this ScholarlyWiki preview.<br>
research.<br>
This item is selected from NIST for the rotating external quantum article block.<br>
The article is featured here because it connects current quantum research with a<br>
Category or topic: Quantum science.<br>
broader scientific or technological problem.<br>
Publication or update date: 2025-09-10.<br>
The preview highlights the main idea while leaving the detailed evidence, figures and<br>
Full source URL:<br>
technical discussion to the original source.<br>
https://www.nist.gov/news-events/news/2025/09/quantum-sensing-what-beats-beating-noise-meeting-noise-halfway<br>
Topic area: Moe Win, MIT AeroAstro, MIT LIDS, MIT IDSS, Quantum neXus Laboratory,<br>
The linked article is the authoritative source for the full discussion and any updates.<br>
quantum sensing, photon-varied Gaussian states (PVGSs), quantum communications,<br>
The main-page block provides a compact ScholarlyWiki preview for readers.<br>
quantum information, non-Gaussian quantum states.<br>
The right-side image is selected from the same article URL when a usable image is available.
The selected source is MIT News | Massachusetts Institute of Technology; the full<br>
article link appears below this preview.
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The linked source provides the full context, figures and publication details for readers who want to continue beyond this ScholarlyWiki preview.
[https://news.mit.edu/2025/researchers-establish-new-basis-quantum-sensing-communication-0313 Read the full article at MIT News | Massachusetts Institute of Technology ->]
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[https://www.nist.gov/news-events/news/2025/09/quantum-sensing-what-beats-beating-noise-meeting-noise-halfway Read the full article at NIST ->]
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External source: NIST. Selected external quantum article.
External source: MIT News | Massachusetts Institute of Technology. Selected external quantum article.
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Credits: NIST · 2025-09-10
Credits: MIT News | Massachusetts Institute of Technology
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Revision as of 23:10, 20 May 2026

Open image full size

Image from or related to the featured external quantum article.

Featured external quantum article

Researchers establish new basis for quantum sensing and communication

MIT News | Massachusetts Institute of Technology · Moe Win, MIT AeroAstro, MIT LIDS, MIT IDSS, Quantum neXus Laboratory, quantum sensing, photon-varied Gaussian states (PVGSs), quantum communications, quantum information, non-Gaussian quantum states

Article preview.
Researchers have established a new basis for quantum sensing and communication. Their
theoretical approach for generating quantum states could be crucial for many areas,
ranging from fingerprinting the magnetic field of the Earth to enhancing astrophysical
research.
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: Moe Win, MIT AeroAstro, MIT LIDS, MIT IDSS, Quantum neXus Laboratory,
quantum sensing, photon-varied Gaussian states (PVGSs), quantum communications,
quantum information, non-Gaussian quantum states.
The selected source is MIT News | Massachusetts Institute of Technology; the full
article link appears below this preview.

External source: MIT News | Massachusetts Institute of Technology. Selected external quantum article.

Credits: MIT News | Massachusetts Institute of Technology

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