The floating block method provides the tools to compute how quantum states overlap and how to build fast and accurate emulators of those systems.
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Computing How Quantum States Overlap
The floating block method provides the tools to compute how quantum states overlap and how to build fast and accurate emulators of those systems.
New Calculations Solve an Alpha Particle Physics Puzzle
A new experimental measure of Helium-4’s transition from its ground energy state to an excited state closes an apparent gap with theoretical predictions.
Understanding Charged-Particle Bound States in Periodic Boxes
Finite geometry reveals fundamental properties of charged quantum systems.
Creating Quiet Cables for Rare Physics Events
Researchers design ultra-low radiation cables to reduce background noise for highly sensitive nuclear decay and dark matter detectors.
Not-Quite “Magic” Oxygen-28 Observed for the First Time
An almost-bound isotope of oxygen undergoes four-neutron decay that challenges theory.
Entanglement Entropies of Nuclear Systems Grow as the Volume of those Systems
Quantum entanglement changes in atomic nuclei in ways that differ from other systems.
Teasing Strange Matter from Ordinary
New insights reveal details of how strange matter forms.
Searching for the Decay of Nature’s Rarest Isotope: Tantalum-180m
The first results from the MAJORANA experiment dramatically improve current limits on this rare isotope’s decay.
Grounding zone discovery explains accelerated melting under Greenland’s glaciers
UC Irvine researchers suggest we may be underestimating severity of sea level rise
