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Quantum Physics news
AI accelerators deliver accurate models for challenging quantum chemistry calculations
The most demanding calculations in quantum chemistry can now be solved with graphics processing unit (GPU) supercomputers. A recently published study shows that software adapted to use GPU hardware can provide not just speed, ...
Quantum Physics
12 hours ago
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AI automates quantum dot voltage tuning for scaling up quantum computing
Semiconductor spin qubits are a promising candidate for the building blocks of next-generation quantum computers due to their high potential for integration and compatibility with existing semiconductor technologies. Qubits—like ...
Condensed Matter
12 hours ago
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Quantum chips could scale faster with new spin-qubit readout that reduces sensors and wiring
Quantum computers, devices that process information leveraging quantum mechanical effects, could tackle some tasks that are difficult or impossible to solve using classical computers. These systems represent data as qubits, ...
Physicists revive 1990s laser concept to propose a next-generation atomic clock
Researchers in the US and Germany have unveiled a theoretical blueprint for an atomic clock driven by a highly synchronized laser, where atoms work in concert rather than independently. Publishing their results in Physical ...
Soundwaves settle debate about elusive quantum particle
It was a head-spinning discovery. In 2018, researchers in Japan claimed to find concrete evidence of an elusive particle, a Majorana fermion, in a quantum spin liquid called ruthenium trichloride. Majoranas are highly sought-after ...
Condensed Matter
Apr 22, 2026
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Quantum simulations that bypass resolution limits offer insights into high-temperature superconductivity
A new method developed at LMU overcomes fundamental resolution limits and may provide insights into high-temperature superconductivity. Physicist Dr. Sebastian Paeckel has developed a method that can be used to calculate ...
Superconductivity
Apr 22, 2026
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Classical physics can explain quantum weirdness, study shows
When you throw a ball in the air, the equations of classical physics will tell you exactly what path the ball will take as it falls, and when and where it will land. But if you were to squeeze that same ball down to the size ...
General Physics
Apr 22, 2026
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Particle thought to break physics followed rules all along, research reveals
A tiny discrepancy in particle physics has loomed for decades as an exciting possible crack in one of science's most successful theories, hinting at unknown forces or quantum objects. Now, an international team led by a Penn ...
General Physics
Apr 22, 2026
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Do decoherence, gravity, dark matter and dark energy all originate from quantum corrections?
Only about 5% of the universe is composed of normal matter that we can directly observe, while the remaining 95% is widely believed to consist of dark matter and dark energy. Paradoxically, however, the nature of these dark ...
Scientists take a step toward a quantum internet using New York City's fiber
As long as there's been an internet, there's been a way to hack it. Scientists have spent decades imagining a different kind of network, one where the laws of physics make eavesdropping physically impossible, not just technically ...
Quantum Physics
Apr 21, 2026
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Photonic chip generates milliwatt-level UV light, 100 times brighter than before
Researchers from the University of Twente and Harvard University have developed a new way to generate ultraviolet (UV) light on a photonic chip at power levels high enough for real-world use. For the first time, the technique ...
Optics & Photonics
Apr 21, 2026
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Stretching and squeezing diamond opens new path for ultra-precise quantum sensors
Researchers have discovered a new way to tune the quantum properties of tiny defects in diamond—by gently stretching or compressing the crystal. These findings could pave the way for next-generation sensors that can detect ...
Condensed Matter
Apr 21, 2026
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Pressure-tuned quantum spin liquid-like behavior observed in material Y-kapellasite
A quantum spin liquid is a phase of matter in which the magnetic moments in a material do not align or freeze, even at temperatures close to absolute zero (i.e., at 0 K). The experimental realization of this highly dynamic ...
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
Apr 20, 2026
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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
Apr 20, 2026
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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
Apr 20, 2026
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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
Apr 20, 2026
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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
Apr 20, 2026
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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 ...
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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More news
Quantum simulations reveal spin transport in 1D materials
Smart cable sharing gives quantum computers a big boost
A silicon-compatible path toward scalable quantum systems
Physicists discover how to reverse 'quantum scrambling'
Unlocking unusual superconductivity in a lightweight element
'Poor man's Majoranas' can be used as quantum spin probes
Electron–atom scattering encodes the quantum state of electron wave packets
Quantum computing without interruptions
What if humans could regrow tissue? New study moves science closer
Tiny songbird crosses Sahara by flying night after night
