#bosons-and-fermions
#bosons-and-fermions

Science

Getting formal about quantum mechanics' lack of causality

Philosophy

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

How physicists proved that quantum weirdness is a feature, not a bug

Quantum information is essential and could soon impact our financial security due to advancements in quantum computing.

Getting formal about quantum mechanics' lack of causality

Superposition of temporal order is a fundamental feature of quantum mechanics, despite existing loopholes in current experiments.

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

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.

The flimsy case for evolving dark energy

Theoretical physicists risk falling into motivated reasoning by overly believing speculative ideas without sufficient supporting evidence.

Moire engineering of Cooper-pair density modulation states - Nature

Weak-coupling spin-singlet superconductors can host finite-momentum Cooper pairing, leading to PDW states that break lattice translational symmetry.

fromThe Conversation

5 days ago

Are multiverses real? An astrophysicist explains why it depends on how you define 'real'

The existence of the multiverse remains hypothetical, with no direct sensory evidence but potential indirect effects.

#quantum-computing

fromComputerweekly

Women in technology

Understanding quantum: A Computer Weekly Downtime Upload podcast

5 days ago

Science

Quantum simulations verified by experiments for the first time

3 weeks ago

Science

Quantum computing meets the Mobius molecule

fromFast Company

Information security

Why should you care about quantum computing?

Why 'quantum proteins' could be the next big thing in biology

Fluorescent proteins from crystal jellyfish are being transformed into quantum bits to create highly sensitive quantum sensors for biological applications.

Quantum computers will finally be useful: what's behind the revolution

Accelerated advances in hardware, control techniques, and theory have sharply reduced quantum error rates, making practical quantum computers likely within the next decade.

Women in technology

fromComputerweekly

Understanding quantum: A Computer Weekly Downtime Upload podcast

Quantum computing can accelerate drug discovery, particularly for non-hormonal treatments for endometriosis.

5 days ago

Quantum simulations verified by experiments for the first time

Quantum computers can potentially solve complex tasks, but high error rates hinder their current capabilities.

3 weeks ago

Quantum computing meets the Mobius molecule

IBM used a quantum computer algorithm to help create a molecule with half-Möbius topology, demonstrating quantum computation's growing practical utility in chemistry.

fromFast Company

Information security

Why should you care about quantum computing?

Why 'quantum proteins' could be the next big thing in biology

Fluorescent proteins from crystal jellyfish are being transformed into quantum bits to create highly sensitive quantum sensors for biological applications.

Science

Quantum computers will finally be useful: what's behind the revolution

more#quantum-computing

Is the universe swarming with tiny black holes from the beginning of time?

Black holes warp space and time, and can be formed by collapsing massive stars or merging neutron stars.

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

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.

#particle-physics

OMG science

Large Hadron Collider Discovers All-New Particle

OMG science

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

fromwww.theguardian.com

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.

4 weeks 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.

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.

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.

fromwww.theguardian.com

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.

4 weeks 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

fromwww.nature.com

Bistable superlattice switching in a quantum spin Hall insulator

Monolayer TaIrTe4 exhibits bistable superlattice switching between two lattice configurations with dramatically different periodicities, controllable through electrostatic tuning of electronic states.

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.

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

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.

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

Cavity-altered superconductivity - Nature

A grand aspiration of cavity quantum materials research is to uncover fundamentally new routes for controlling properties of matter by judiciously tailoring the quantum electromagnetic environment. Experiments with dark cavities revealed modified transport properties in the integer and fractional quantum Hall states of a 2D electron gas, as well as cavity-assisted thermal control of the metal-to-insulator transition in charge-density-wave systems.

Science

#anyons

Philosophy

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

Philosophy

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

Philosophy

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

Philosophy

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

more#anyons

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.

Why Satyendra Nath Bose was more than Einstein's sidekick | Aeon Essays

Treating identical quantum particles as indistinguishable yields Bose-Einstein statistics, founding BEC prediction and enabling modern quantum physics and technologies.

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

3 months ago

A chiral fermionic valve driven by quantum geometry - Nature

Quantum geometry in PdGa devices spatially separates chiral fermions into Chern-number–polarized states, enabling tunable current-induced magnetization and coherent interferometry without magnetic fields.

#quantum-superposition

Science

Daily briefing: Largest ever 'superposition' pushes quantum boundary

fromwww.nature.com

Science

Quantum physicists just supersized Schrodinger's cat. What happens next could be revolutionary

Science

Daily briefing: Largest ever 'superposition' pushes quantum boundary

fromwww.nature.com

more#quantum-superposition

Science

Quantum physicists just supersized Schrodinger's cat. What happens next could be revolutionary

Quantum spinning effect observed in a levitating magnet

A supercooled microscopic ferromagnet proves the existence of gyroscopic magnetic behaviour that has been long sought by physicists.

Science

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.

fromInfoQ

Conductor Quantum Introduces Coda, a Natural Language Interface for Quantum Computing

Coda provides a natural-language interface that translates user intent into validated quantum circuits and orchestrates execution on real quantum hardware and simulators.

The most important quantum advance of the 21st century

The Pusey-Barrett-Rudolph theorem supports an ontic interpretation of the quantum state and constrains hidden-variable and epistemic models of quantum reality.

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.

fromtheconversation.com

Is time a fundamental part of reality? A quiet revolution in physics suggests not

Different fundamental physical theories treat time incompatibly, causing time to stretch, slow, or even disappear when those frameworks are combined.

Long-lived remote ion-ion entanglement for scalable quantum repeaters - Nature

Hefei National Research Center for Physical Sciences at the Microscale and School of Physical Sciences, University of Science and Technology of China, Hefei, Anhui, China Wen-Zhao Liu, Ya-Bin Zhou, Jiu-Peng Chen, Ao Teng, Xiao-Wen Han, Guang-Cheng Liu, Zhi-Jiong Zhang, Yi Yang, Feng-Guang Liu, Chao-Hui Xue, Bo-Wen Yang, Jin Yang, Chao Zeng, Yi-Zheng Zhen, Feihu Xu, Ye Wang, Yong Wan, Qiang Zhang & Jian-Wei Pan

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.

Meet the mysterious electrides

Electrides in Earth's high-pressure inner core may trap hydrogen, carbon, nitrogen, sulfur, and noble gases, explaining surface deficiencies and lower core density.

The Schrodinger equation is getting a glow-up for its 100th birthday

Including observers within the Schrodinger equation reveals new perspectives and may redefine boundaries of quantum mechanics, addressing enduring mysteries about measurement and reality.

U.S. physicists have bid farewell to the nation's last remaining particle collider, which spun gold into revolutionary discoveries

RHIC recreated the universe's primordial quark–gluon plasma, enabling breakthroughs in antimatter production, proton spin understanding, and glimpses of the Big Bang over a 25-year run.