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Quantum Physics news
Researchers craft a new, simple recipe for highly entangled quantum states
Building useful quantum technologies—from sensors to computers—requires generating highly complex entangled states, in which the properties of particles are deeply intertwined. Producing such states has traditionally required ...
Quantum Physics
14 minutes ago
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Predictive surrogates could cut quantum computing measurement overhead by more than 99.97%
Quantum computers, systems that process information leveraging quantum mechanical effects, have the potential of outperforming classical computers on some tasks. Despite their potential, the use of these systems remains very ...
Scientists identify the origin of noise in spin qubit quantum processors
A spin qubit, in which quantum information is encoded in the spin state of an electron, is one of the most promising platforms for quantum computing. Spin qubits exhibit long coherence times and are compatible with advanced ...
Quantum Physics
Jun 6, 2026
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Quantum shell structure reveals new rule for proton-neutron pairing inside nuclei
Nuclear physicists used a little magic in their latest experiment conducted at the U.S. Department of Energy's Thomas Jefferson National Accelerator Facility, and the result has revealed surprising new information about the ...
General Physics
Jun 4, 2026
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Photoexcitation flips 2D moiré devices from metals to insulators in ultrafast test
Quantum materials, materials with properties that are governed by the laws of quantum mechanics describing many-body interactions, have proved promising for the development of various advanced technologies. Many of these ...
Nanomagnets control diamond qubits, pointing to more scalable quantum hardware
Quantum computing, once only a theoretical possibility, promises to deliver faster, more energy-efficient computers—but only if scientists can build and scale the hardware needed to run the machines. New research from Virginia ...
Condensed Matter
Jun 3, 2026
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'Don't scare the cat!' Engineers find smarter way to measure quantum systems
UNSW Sydney engineers have riffed on the famous Schrödinger's cat analogy to demonstrate a more efficient way to eliminate errors in quantum computing.
Quantum Physics
Jun 3, 2026
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Chip-scale 'acoustic atom' controls sound waves to imitate atomic energy levels and advance computing
For every action, there is an equal and opposite reaction. What goes up must come down. Physical laws like these govern all of the natural world—except for the tiny internal components of today's microprocessors, which operate ...
Condensed Matter
Jun 3, 2026
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Cutting a photon in two creates an infinite swarm of particles
By definition, elementary particles can't be broken into smaller pieces. But in a new theoretical study published in Physical Review Letters, Johannes Skaar and colleagues have revealed what would happen if you tried anyway ...
Matter may entangle with light far more easily near quantum critical points
Quantum entanglement is a state in which particles are entwined with each other. In this entwined state, the properties of one particle influence the other, even when they aren't physically close to each other. This phenomenon ...
Optics & Photonics
Jun 1, 2026
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Better math discriminates exotic from classical materials
The planar Hall effect is a tabletop diagnostic tool for special quantum properties useful in basic research and technological applications. Or so it was thought, because careful calculation by Kobe University researchers ...
Condensed Matter
Jun 1, 2026
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Quantum light gives a 20-fold boost to ultrafast laser processes
Nonlinear interactions between light and matter are at the heart of some of the most powerful tools in modern optics, but pushing these processes to their limits has long been hampered by a fundamental constraint: the stronger ...
Diamond quantum sensor could reveal elusive altermagnets
For nearly a century, there were two known kinds of magnets. Ferromagnets are the classic magnets that attract metal and keep pictures stuck to the refrigerator. Antiferromagnets hide their magnetism at the atomic scale but ...
Condensed Matter
May 29, 2026
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Topological states emerge in quantum Hall-superconductor devices with multiple channels
Topological phases are unusual states of matter that give rise to properties protected by a material's overall structure (i.e., "topology"), as opposed to microscopic details. These phases are of great interest for the development ...
'Atom Camera' maps laser light at nanoscale using a single ultracold atom
A research group led by Assistant Professor Takafumi Tomita and Professor Kenji Ohmori at the Institute for Molecular Science, National Institutes of Natural Sciences, has developed a new microscopy technique called the Atom ...
Optics & Photonics
May 29, 2026
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Quantum vibronics research points to future energy and computing technologies
Scientists at the University of California, Riverside are making breakthroughs in understanding how quantum wave functions move across ultra-thin materials—research that could eventually improve solar energy technologies ...
Condensed Matter
May 28, 2026
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Quantum pendulum clock overcomes classical accuracy limits and sheds light on quantum to classical transitions
In a grandfather clock, a pendulum swings back and forth and this periodic motion is maintained using the energy stored in its suspended weights. This is done with the help of the escapement mechanism, which converts the ...
Cobalt honeycombs open a new path to quantum computing
Honeycombs are famous for their elegant design, but now they may have found a new application: quantum computing. To collect knowledge from subatomic particles, quantum computers require carefully designed materials capable ...
Condensed Matter
May 28, 2026
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The generation of massive Schrödinger cat states using ultracold atoms
Quantum mechanics is a physics framework that describes how matter and energy behave at an extremely small scale, specifically at the scale of atoms and subatomic particles. An effect predicted by the laws of quantum mechanics ...
Q&A: How researchers are building next-gen quantum computers
Quantum computers have the potential to transform science, accelerating breakthroughs in drug development, cosmology, materials science, nuclear physics, and more.
Quantum Physics
May 27, 2026
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More news
Perfect randomness realized for the first time
The strange quantum property of tomorrow's insulator
Hydrogen puts quantum wormhole conjecture to the test
Tuning into quantum sounds: Acoustic devices simplify quantum sensors
The quantum key to seeing through chaos
The complete evolution of spin glass from order to chaos
New chip offers way to make use of quantum system 'imperfections'
Other news
Nickelate superconductors share a common electronic fingerprint
Bacteria can learn and form memories without a brain
Antibiotics drive resistance in waterways—even after they break down
Continuous stirring made early life-like RNA systems more extinction-prone, experiment shows
Quantum-centric supercomputing simulates 12,635-atom protein
Busseiron and the formation of a discipline in Japanese physics
Twisted WSe₂ reveals elusive charge-neutral quantum modes
Prototype sets record for optical quantum information technology
First nonrepeating biological clock discovered in C. elegans guides growth
Hidden protein switch controls photosynthesis as light conditions change
