Bound clusters of ultracold atoms tunnel coherently in optical lattices to form 608-amu composite objects in spatial superposition, certified by interferometry for quantum-enhanced measurements.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
cond-mat.quant-gas 2verdicts
UNVERDICTED 2representative citing papers
Ultracold-atom processor samples driven thermalized Bose-Hubbard states up to 64 sites (Hilbert space 10^19), achieving sampling rates three orders of magnitude above supercomputers and extracting up to 14th-order correlations to distinguish thermalized from localized phases.
citing papers explorer
-
Scalable Generation of Massive Schr\"odinger Cat States via Quantum Tunneling
Bound clusters of ultracold atoms tunnel coherently in optical lattices to form 608-amu composite objects in spatial superposition, certified by interferometry for quantum-enhanced measurements.
-
Quantifying Quantum Computational Advantage on a Processor of Ultracold Atoms
Ultracold-atom processor samples driven thermalized Bose-Hubbard states up to 64 sites (Hilbert space 10^19), achieving sampling rates three orders of magnitude above supercomputers and extracting up to 14th-order correlations to distinguish thermalized from localized phases.