Magnon scattering in a vortex-state microdisk provides a high-dimensional reservoir for accurate Mackey-Glass time series prediction that rivals state-of-the-art physical reservoirs.
Title resolution pending
7 Pith papers cite this work. Polarity classification is still indexing.
7
Pith papers citing it
citation-role summary
background 2
citation-polarity summary
roles
background 2representative citing papers
Long-range dipolar interactions on a breathed Kagome lattice stabilize a chiral spin liquid, identified via DMRG and proposed for adiabatic preparation and edge-mode detection.
Quantum simulation finds SU(2)-symmetric 2D interactions most resilient to superdiffusion breakdown in generalized Heisenberg models.
Resonance between on-site interactions and gravitational gradient in lattice BECs amplifies quantum Fisher information for gravimetry in the localized phase.
Articulatory configurations during vowel production create distinct electromagnetic transmission patterns through the vocal tract, confirmed by qualitative agreement between finite-element simulations and scattering-matrix measurements on two subjects.
Kerr-type interactions factorize into a dimensionless projection coefficient and an intrinsic quartic energy scale from canonical quantization of quartic potentials projected onto finite normal-mode bases, with cross-platform experimental agreement.
TDVP-MPS simulations of Rydberg atom chains mitigate exponential concentration in QELM, yielding competitive MNIST accuracy via controlled entanglement and disorder without requiring exact quantum dynamics.
citing papers explorer
-
Predicting the future with magnons
Magnon scattering in a vortex-state microdisk provides a high-dimensional reservoir for accurate Mackey-Glass time series prediction that rivals state-of-the-art physical reservoirs.