#PhysRevLett Search for Extremely-High-Energy Neutrinos and First Constraints on the Ultrahigh-Energy Cosmic-Ray Proton Fraction with IceCube journals.aps.org/prl/abstract/10.1103/Phy... The missing ingredient in cosmic rays https://www.nature.com/articles/d41586-025-02227-0

#PhysRevLett Search for Extremely-High-Energy Neutrinos and First Constraints on the Ultrahigh-Energy Cosmic-Ray Proton Fraction with IceCube journals.aps.org/prl/abstract/10.1103/Phy... The mysterious missing ingredient in the […]

[Original post on mathstodon.xyz]

🌀 Neutron Airy beams just dropped. No lens, no potential, just pure cubic-phase holographic witchcraft. Self-accelerating quantum ghosts curving through spacetime. Welcome to diffractionless neutronpunk. 🧬🛠️ #physrevlett #neutronoptics #AiryBeams
journals.aps.org/prl...

Check out our new work on #synchronization just published in #PhysRevLett.

Paper out in #PhysRevLett with Moritz @gr221.bsky.social, Laerte @laertepatera.bsky.social, Felix, Jascha, Andrea @uniregensburg.bsky.social
journals.aps.org/prl/abstract...
@dipcehu.bsky.social @uniinnsbruck.bsky.social @apsphysics.bsky.social #STM #ChargeTransfer #JahnTellerEffect #ManybodyModel

Nonreciprocal Interactions Reshape Topological Defect Annihilation We show how nonreciprocal ferromagnetic interactions between neighboring planar spins in two dimensions, affect the behavior of topological defects. Nonreciprocity is introduced by weighting the coupl...

Published in #PhysRevLett! How nonreciprocity affects the behaviour of topological defects? they are reshaped, their annihilation can be enhanced or hindered, +1 -1 charges move differently. PhD work of YRouzaire @ub.edu @ubics.bsky.social with @demianlevis.bsky.social IPagonabarraga and DPearce.

#PhysRevLett Quantum Simulation of SU(3) Lattice Yang-Mills Theory at Leading Order in Large-𝑁𝑐 Expansion journals.aps.org/prl/abstract/10.1103/Phy...

#PhysRevLett Quantum Simulation of SU(3) Lattice Yang-Mills Theory at Leading Order in Large-𝑁𝑐 Expansion journals.aps.org/prl/abstract/10.1103/Phy...

#PhysRevLett Quantum Simulation of SU(3) Lattice Yang-Mills Theory at Leading Order in Large-𝑁𝑐 Expansion journals.aps.org/prl/abstract/10.1103/Phy... #NaturePhysics Simulating two-dimensional lattice gauge theories on a qudit quantum […]

[Original post on mathstodon.xyz]

What happens when you use a #polarization #microscope to look at a pair of molecules? They look like a #wobbling #singlemolecule! No microscope can tell the difference!

Happy to share #YiyangChen17 's article in #PhysRevLett! What happens when you use a #polarization #microscope to look at a pair of molecules? They look like a #wobbling #singlemolecule! No 🔬 can tell the difference! doi.org/10.1103/Phys... @washu.bsky.social @washuengineers.bsky.social

I am also positively surprised that the #PhysRevLett would publish this great work.

#PhysRevLett Antiprotons and Elementary Particles over a Solar Cycle: Results from the Alpha Magnetic Spectrometer journals.aps.org/prl/abstract/10.1103/Phy...

#PhysRevLett Antiprotons and Elementary Particles over a Solar Cycle: Results from the Alpha Magnetic Spectrometer journals.aps.org/prl/abstract...

Physicists develop new theory describing the energy landscape formed when quantum particles gather together Understanding the exact shape of energy landscapes of quantum particles can potentially make computer simulations of materials far more accurate. Such simulations are helping to design next-gen materi...

Delighted to see this work led by Andrew Burgess out in #PhysRevLett -- and explained by a lovely write-up 🎉
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