Latest articles
Photonic orbitals shape up
The behaviour of photons confined inside three-dimensional cavity superlattices is much more complex than that of electrons in conventional solid-state materials
Scientists create space plasmas at CERN
Producing fast-moving "fireballs" in the lab could shed light on processes in extreme astrophysical emissions
Matter-wave interferometry puts new limits on ‘chameleon particles’
Gravity measurement benefits from optical lattice
Research headlines
Bilayer of ultracold atoms has just a 50 nm gap
System could be used to simulate superconducting bilayer graphene
Individual polyatomic molecules are trapped in optical-tweezer arrays
Molecules cooled to their quantum ground state
Space weather phenomenon observed in the lab for the first time
Magnetosphere events known as whistler mode chorus emissions can now be produced in a controlled environment
New attosecond X-ray spectroscopy technique ‘freezes’ atomic nuclei in place
Removing "noise" from atomic motion enables scientists to observe electron movement in real time, leading to new interpretations of previous results
Space-borne atoms herald new tests of Einstein’s equivalence principle
Measuring the free-fall rate of different type of atoms in space could unveil hidden mechanisms of gravity
Matter–antimatter gas of positronium is laser cooled
Technique could give spectroscopic studies of antimatter a boost
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Explore more in atomic and molecular physics
Scientists identify a ‘sugar world’ beyond Neptune
The surface of a Kuiper Belt object called Arrokoth is rich in glucose, ribose and other sweet molecules
Ultracold four-atom molecules are bound by electric dipole moments
New technique could shed light on high-temperature superconductivity
Physicists take the temperature of second sound
Results could have applications for studies of high-temperature superconductors and neutron stars
Physicists observe false vacuum decay in a ferromagnetic superfluid
First experimental evidence of true vacuum “bubbles” could have implications for cosmology as well as condensed-matter physics
Machine learning takes hassle out of cold-atom experiments
Reinforcement learning can make cooling apparatus more robust
Magnetic reconnection in space and fusion plasmas: challenges at large and small scales
Join the audience for a live webinar on 6 February 2024 sponsored by IOP Publishing's journal, Plasma Physics and Controlled Fusion
Entangled molecules make a novel qubit platform
Two independent groups report a new tool for quantum science
Scientists propose super-bright light source powered by quasiparticles
A new light source concept based on plasma accelerators could be harnessed for a variety of applications, including non-destructive imaging and computer-chip manufacturing
Neutral-atom quantum computers are having a moment
Three new studies show record low error rates and a new error erasure strategy for two-qubit quantum gates
Organic molecule from trees excels at seeding clouds, CERN study reveals
Sesquiterpene creates cloud-forming particles
No-heat quantum engine makes its debut
Researchers demonstrate a prototype engine powered by the quantum statistics of bosons and fermions
Antimatter does not fall up, CERN experiment reveals
ALPHA-g is first to observe antihydrogen in freefall
‘Alice rings’ spotted in a Bose–Einstein condensate
Laboratory experiment could shed light on cosmological questions
Cold atoms used to create reliable pressure gauge for ultrahigh vacuum
Device could be used in particle accelerators and gravitational-wave detectors
Quantum superchemistry emerges in the laboratory
Chemical reactions speed up when reactants are in the same quantum state, confirming theoretical predictions
Physicists measure the electron electric dipole moment to unprecedented precision
Measurement calls into question theories beyond the Standard Model
Einstein–Podolsky–Rosen paradox gets a 1000-atom test
New experiment brings EPR thought experiment to reality for the first time in massive, many-particle systems
Fractional quantum Hall state appears in ultracold atoms
Strongly interacting Laughlin state had previously only been observed in condensed-matter systems and in photons
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