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Physics news
Could the mathematical 'shape' of the universe solve the cosmological constant problem?
The cosmological constant is the mathematical description of the energy that drives the ever-accelerating expansion of the cosmos. It's also the source of one of the most enduring and confounding problems in modern physics.
General Physics
10 hours ago
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A long-sought quantum computing milestone arrives as fermionic atom gates top 99% accuracy
Two independent research teams have each demonstrated collisional quantum gates using fermionic atoms: a long-sought milestone in quantum computing where logic operations are performed through the direct physical overlap ...
Bringing quantum time into the lab—a single clock can run young and old at once
Few concepts in physics are as familiar, yet as enigmatic, as time. In Einstein's theory of relativity, time is not absolute: its passage depends on motion and gravity. But when combined with quantum physics, this relativistic ...
General Physics
18 hours ago
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LHC decay anomaly reveals possible crack in the Standard Model
Recent findings from research we have been carrying out at the Large Hadron Collider (LHC) at Cern in Geneva suggest that we might be closing in on signs of undiscovered physics.
General Physics
14 hours ago
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Sprinkling nanoparticles on spintronics
Today, I want to walk you through a deceptively simple innovation from the lab at Loughborough University (PI: Prof Marco Peccianti): what happens when we decorate a spintronic heterostructure with a sparse layer of plasmonic ...
Quantum gas resists heating under periodic kicks, revealing many-body localization mechanism
A joint theoretical study by the University of Innsbruck and Zhejiang University has uncovered the microscopic origin of a striking quantum phenomenon: a periodically driven gas of ultracold atoms that simply refuses to heat ...
Quantum Physics
12 hours ago
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Hypertriton appears more tightly bound than expected, sharpening the picture of nuclear forces
An international research team of the A1 Collaboration at the Mainz Microtron (MAMI) of Johannes Gutenberg University Mainz (JGU) has succeeded in determining the binding energy of the hypertriton with unprecedented precision. ...
General Physics
13 hours ago
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Why ultrashort laser pulses could make low-power electron sources far more practical
A new theoretical study finds shorter laser pulses achieve higher quantum efficiency for photoemission from a solid surface without increasing power or intensity. Using light to knock electrons loose from a surface—known ...
Optics & Photonics
12 hours ago
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Single mathematical model helps solve a decades-old puzzle involving ultrafast lasers
A team of international researchers, including an Aston University researcher, has cracked the code on how "breather" laser pulses work, creating a single mathematical model that explains two completely different laser behaviors ...
Optics & Photonics
13 hours ago
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Two paths to scalable quantum computing: Optical links between fridges and higher-temperature qubits
Superconducting qubits—bits of quantum information—have been widely considered a promising technology for moving quantum computing forward. But there's still much work to be done before they can be brought out of a near absolute ...
Optics & Photonics
13 hours ago
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A hidden property of light could power future nanomachines
Light does more than illuminate the world—it can also push and twist matter. It was back in the 1870s that James Clerk Maxwell first predicted that light carries momentum and can exert pressure on objects. Nearly a century ...
Optics & Photonics
19 hours ago
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Millimeter-scale resolution in fiber-optic sensing: Single-ended technique advances infrastructure monitoring
Distributed fiber-optic sensors are widely used to monitor temperature and strain in infrastructure, but their spatial resolution has long been limited. In a new study, researchers from Shibaura Institute of Technology and ...
Optics & Photonics
9 hours ago
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How maze-like magnetic patterns form and evolve in materials
The rapid increase in electric vehicle adoption in recent years has highlighted a crucial issue: the energy conversion efficiency of electric motors. In electric motors, iron loss or magnetic hysteresis loss is a primary ...
General Physics
18 hours ago
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I've fired one of America's most powerful lasers—here's what a shot day looks like
If you walk across the open yard in front of the Physics, Math and Astronomy building at the University of Texas at Austin, you'll see a 17-story tower and a huge L-shaped building. What you won't see is what's underneath ...
Optics & Photonics
15 hours ago
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Water simulation of famous quantum effect reveals unexpected wave patterns
In the quirky quantum world, particles can be affected by forces that they never directly encounter. A classic example is the Aharonov–Bohm (AB) effect, where electrons are affected by a magnetic field, despite not passing ...
Soft Matter
Apr 20, 2026
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Quantum model explains how single electrons cause damage inside silicon chips
Researchers in the UC Santa Barbara Materials Department have uncovered the elusive quantum mechanism by which energetic electrons break chemical bonds inside microelectronic devices—a detrimental process that slowly degrades ...
Condensed Matter
Apr 19, 2026
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How tiny voids could make fusion targets more stable under powerful shockwaves
Picture two materials sandwiched together. The boundary between them may appear flat, but, in reality, it is full of tiny bumps and dents. Suddenly, the materials are hit with a shockwave. If that wave hits a bump in the ...
General Physics
Apr 19, 2026
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There's a range of magic angles to study superconductivity in a twisted 2D semiconductor
Last year, tungsten diselenide (WSe2) had its magic moment. Two independent research groups discovered "magic angles" at which two atom-thin layers of the unique semiconductor, when twisted relative to one another into what's ...
Superconductivity
Apr 19, 2026
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Generalized optical meta-spanners empower arbitrary light paths for multitasking optical manipulation
Have you ever wished to drive microscopic matter along an arbitrarily tailored trajectory instead of just a circle? That's exactly what we set out to achieve.
Surprising link between metallicity and superconductivity uncovered in twisted trilayer graphene
Superconductivity is a state of matter characterized by an electrical resistance of zero, typically at very low temperatures. Past studies have found that in various materials, this unique state is accompanied by unusual ...
More news
Flat optics move toward market with 300-per-second metalens production
Laser-plasma accelerator drives free-electron laser for record 8 hours
Confirming altermagnetism in an abundant mineral
New laser method gives insight into radioactive atomic nuclei
New methods can help study the phenomenon of turbulence
Other news
Alkaline cement tiles boost baby coral survival from 12% to 52%
New AI method captures long-range atomic interactions in complex molecules
Stem cell embryo model grows yolk sac without hypoblasts or gene editing
Quantum simulations reveal spin transport in 1D materials
Machine learning accelerates analysis of fusion materials
Smart cable sharing gives quantum computers a big boost
Chemists stabilize rare three‑atom metal ring, revealing new form of aromaticity
Why a bizarre Brazil 'pterosaur' fossil is now being reclassified as a fish
