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Science
fromNature
4 days ago

Entanglement and electronic coherence in attosecond molecular photoionization - Nature

Attosecond pulses from high-harmonic generation create entangled ion-photoelectron systems, enabling observation of coherent dynamics in quantum states.
#quantum-mechanics
Philosophy
fromwww.scientificamerican.com
2 weeks ago

A 100-year-old theory might explain what's wrong with quantum mechanics

Pilot wave theory, developed by Louis de Broglie a century ago, potentially resolves quantum mechanics' paradoxes by describing particles guided by attendant waves rather than existing in superposition.
more#quantum-mechanics
fromNature
6 days ago

Quantum simulations verified by experiments for the first time

"To contrast the data with what we're measuring in the quantum computer is crucial," says Alexandre Dauphin, emphasizing the importance of aligning simulations with experimental results.
Science
#cern
OMG science
fromFuturism
1 week ago

Physicists Successfully Deliver First Bottle of CERN Antimatter From the Antimatter Factory

Researchers successfully transported 92 antiprotons across CERN, marking the first haul of antimatter particles in history.
OMG science
fromNature
1 week ago

Antimatter has been transported for the first time ever - in the back of CERN's truck

CERN successfully transported 92 antiprotons in a magnetic bottle, marking a historic achievement in antimatter research.
OMG science
fromFuturism
1 week ago

Physicists Successfully Deliver First Bottle of CERN Antimatter From the Antimatter Factory

Researchers successfully transported 92 antiprotons across CERN, marking the first haul of antimatter particles in history.
OMG science
fromNature
1 week ago

Antimatter has been transported for the first time ever - in the back of CERN's truck

CERN successfully transported 92 antiprotons in a magnetic bottle, marking a historic achievement in antimatter research.
more#cern
Science
fromNature
2 weeks ago

Elusive 'nuclear clocks' tick closer to reality - after decades in the making

Physicists are nearing the creation of a nuclear clock, which could be the most precise timekeeping device ever developed.
fromBig Think
1 week ago

Gravity and quantum physics are fundamentally incompatible

General Relativity has yet to let us down. Its success rate is 100%, from tabletop experiments to gravitational lensing and the formation of the great cosmic web.
OMG science
#superluminous-supernovae
Science
fromArs Technica
3 weeks ago

Magnetars drag spacetime to power superluminous supernovae

Frame-dragging from rapidly spinning magnetars explains the irregular light patterns observed in superluminous supernovae, resolving a long-standing discrepancy between theory and observations.
Science
fromArs Technica
3 weeks ago

Magnetars drag spacetime to power superluminous supernovae

Frame-dragging from rapidly spinning magnetars explains the irregular light patterns observed in superluminous supernovae, resolving a long-standing discrepancy between theory and observations.
more#superluminous-supernovae
#particle-physics
fromwww.theguardian.com
2 weeks ago
OMG science

Scientists discover heavier version of proton with upgraded detector

CERN scientists discovered a heavy proton variant four times heavier than regular protons using the upgraded Large Hadron Collider, advancing understanding of nuclear forces.
fromBig Think
1 month ago
OMG science

No, particle physics colliders cannot ever destroy the Universe

Particle physics experiments at higher energies reveal fundamental Universe mysteries while carrying theoretical risks, but current and planned accelerators pose no actual danger to Earth.
OMG science
fromFuturism
2 weeks ago

Large Hadron Collider Discovers All-New Particle

Scientists discovered a new particle, Xi-cc-plus, made of two charm quarks and one down quark, using CERN's Large Hadron Collider.
OMG science
fromwww.scientificamerican.com
2 weeks ago

A charmed' new particle is discovered at world's largest atom smasher

Physicists discovered a doubly charmed baryon at the Large Hadron Collider containing two charm quarks and one down quark, bringing the total known hadrons to 80.
OMG science
fromwww.theguardian.com
2 weeks ago

Scientists discover heavier version of proton with upgraded detector

CERN scientists discovered a heavy proton variant four times heavier than regular protons using the upgraded Large Hadron Collider, advancing understanding of nuclear forces.
OMG science
fromBig Think
1 month ago

No, particle physics colliders cannot ever destroy the Universe

Particle physics experiments at higher energies reveal fundamental Universe mysteries while carrying theoretical risks, but current and planned accelerators pose no actual danger to Earth.
more#particle-physics
OMG science
fromBig Think
2 weeks ago

The case for and against a 5th fundamental force of nature

Current physics theories cannot explain fundamental cosmic mysteries like matter-antimatter asymmetry, dark matter, dark energy, and cosmic inflation, suggesting undiscovered forces or phenomena remain.
OMG science
fromBig Think
2 weeks ago

Why "CPT" is the Universe's most unbreakable symmetry

CPT symmetry is a fundamental, unbreakable symmetry that applies universally to all physical laws and phenomena in the Universe.
fromwww.theguardian.com
3 weeks ago

Please drive carefully: scientists plan to transport volatile antimatter for first time

A core question we want to understand is where did matter come from. And then, if you know about antimatter, it's natural to ask, why is that not here? The process is not understood and we are hunting for clues as to why it happened, says Dr Christian Smorra, a physicist on the Baryon Antibaryon Symmetry Experiment (Base) at Cern.
OMG science
Science
fromArs Technica
1 month ago

Photons that aren't actually there influence superconductivity

Virtual photons from quantum fields can degrade superconductor performance, providing insights into quantum mechanics and superconductivity behavior.
OMG science
fromMail Online
3 weeks ago

Astronomers watch the birth of a magnetar for the first time

Astronomers observed the birth of a magnetar, an extremely dense neutron star with the universe's most powerful magnetic fields, through a superluminous supernova's unusual flickering light pattern over 200 days.
fromBig Think
1 month ago

Ask Ethan: Can quantum entanglement survive a black hole?

According to Einstein's General Relativity, for every black hole that exists within the Universe, there are only three properties that go into it that matter in any way: the black hole's total mass, the black hole's net electric charge, and the black hole's intrinsic angular momentum, and that's it. It doesn't matter what type of matter went into the black hole in order to form it; all that matters is its mass, charge, and angular momentum.
Science
#anyons
fromAeon
2 months ago
Philosophy

Anyons: the two-dimensional particles that reframe reality | Aeon Essays

fromAeon
2 months ago
Philosophy

Anyons: the two-dimensional particles that reframe reality | Aeon Essays

fromAeon
2 months ago
Philosophy

Anyons: the two-dimensional particles that reframe reality | Aeon Essays

fromAeon
2 months ago
Philosophy

Anyons: the two-dimensional particles that reframe reality | Aeon Essays

more#anyons
Science
fromwww.scientificamerican.com
1 month ago

Physicists trace particles back to the quantum vacuum

RHIC experiments traced virtual particle pairs evolving into real, spin-aligned particle pairs, indicating vacuum fluctuations can produce correlated spin descendants.
fromNature
1 month ago

Large-scale analogue quantum simulation using atom dot arrays - Nature

Analogue quantum simulations are a useful tool for investigating these systems, particularly in regimes in which the applicability of numerical techniques is limited. For different simulator platforms, figures of merit include the electron bandwidth and interaction strength, temperature and the number of simulated lattice sites. Their use is further underscored by the ability to realize distinct lattice geometries, on-site degrees of freedom and by the physical observables that are accessible to experimental measurement.
Science
Science
fromNature
2 months ago

Direct observation of the Migdal effect induced by neutron bombardment - Nature

The Migdal effect enables detection of MeV–GeV light dark matter by producing detectable electronic recoils from nuclear recoils, overcoming current detector threshold limits.
Science
fromBig Think
2 months ago

The most underappreciated achievement in theoretical physics

Modern physics explains luminous matter, black holes, gravity, cosmic expansion, and particle interactions through the Standard Model, quantum field theory, and General Relativity.
fromNature
2 months ago

Constraints on axion dark matter by distributed intercity quantum sensors - Nature

Y.W. designed the experimental protocols, performed experiments, analysed the data and wrote the manuscript. Y.H., X.K., D.C., J.X.X. and W.Z. performed experiments and edited the manuscript. Y.C. and S.P. edited the manuscript. M.J., X.P. and J.D. proposed the experimental concept, designed experimental protocols and proofread and edited the manuscript. All authors contributed with discussions and checking the manuscript. Corresponding authors Correspondence to Min Jiang or Xinhua Peng.
Science
#quantum-superposition
more#quantum-superposition
Science
fromBig Think
2 months ago

Cosmic dust: "too much, too soon" no longer!

Dust measurements in a nearby galaxy reveal how distant early galaxies could produce large dust masses very rapidly.
Science
fromwww.scientificamerican.com
2 months ago

String Theory May Have a New Neuroscientific Niche

Mathematical tools from string-theory contexts can model biological branching networks such as neuronal wiring without implying a fundamental link between string theory and consciousness.
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