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In Quantum Sensing, What Beats Beating Noise? Meeting Noise Halfway.
Photons collide in the void: Quantum simulation creates light out of nothing
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NIST · Quantum science · 2025-09-10
ScienceDaily · Energy and Resources; Optics; Physics; Telecommunications; Civil Engineering; Virtual Environment; Quantum Physics; Electricity
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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<br>
Physicists have managed to simulate a strange quantum phenomenon where light appears<br>
the microscopic scales where quantum physics reigns.<br>
to arise from empty space a concept that until now has only existed in theory. Using<br>
cutting-edge simulations, researchers modeled how powerful lasers interact with the<br>
so-called quantum vacuum, revealing how photons could bounce off each other and even<br>
generate new beams of light. These breakthroughs come just as new ultra-powerful laser<br>
facilities are preparing to test these mind-bending effects in reality, potentially<br>
opening a gateway to uncovering new physics and even dark matter particles.<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: Quantum science.<br>
Topic area: Energy and Resources; Optics; Physics; Telecommunications; Civil<br>
Publication or update date: 2025-09-10.<br>
Engineering; Virtual Environment; Quantum Physics; Electricity.<br>
The selected source is NIST; the full article link appears below this preview.<br>
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<br>
is available.<br>
Readers can follow the source link for the complete article, credits and surrounding<br>
context.
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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 ->]
[https://www.sciencedaily.com/releases/2025/06/250608072527.htm Read the full article at ScienceDaily ->]
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External source: NIST. Selected external quantum article.
External source: ScienceDaily. Selected external quantum article.
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Credits: NIST · 2025-09-10
Credits: ScienceDaily
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Latest revision as of 17:10, 21 May 2026

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Image from or related to the featured external quantum article.

Featured external quantum article

Photons collide in the void: Quantum simulation creates light out of nothing

ScienceDaily · Energy and Resources; Optics; Physics; Telecommunications; Civil Engineering; Virtual Environment; Quantum Physics; Electricity

Article preview.
Physicists have managed to simulate a strange quantum phenomenon where light appears
to arise from empty space a concept that until now has only existed in theory. Using
cutting-edge simulations, researchers modeled how powerful lasers interact with the
so-called quantum vacuum, revealing how photons could bounce off each other and even
generate new beams of light. These breakthroughs come just as new ultra-powerful laser
facilities are preparing to test these mind-bending effects in reality, potentially
opening a gateway to uncovering new physics and even dark matter particles.
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: Energy and Resources; Optics; Physics; Telecommunications; Civil
Engineering; Virtual Environment; Quantum Physics; Electricity.
The selected source is ScienceDaily; the full article link appears below this preview.

External source: ScienceDaily. Selected external quantum article.

Credits: ScienceDaily

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