Frequency dispersion in a random-interaction spherical oscillator model suppresses finite-temperature spin-glass ordering because the resulting correlation singularity violates the spherical constraint, but zero-temperature glassiness persists.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
representative citing papers
A universal second-order reduction maps delayed Kuramoto-Daido networks to inertia-equipped rotator networks with triadic interactions, accurately predicting splay, cyclops, and chimera states across topologies and heterogeneities.
citing papers explorer
-
A solvable model of noisy coupled oscillators with fully random interactions
Frequency dispersion in a random-interaction spherical oscillator model suppresses finite-temperature spin-glass ordering because the resulting correlation singularity violates the spherical constraint, but zero-temperature glassiness persists.
-
From Delay to Inertia and Triadic Interactions: A Predictive Model for Time-Delayed Oscillator Networks
A universal second-order reduction maps delayed Kuramoto-Daido networks to inertia-equipped rotator networks with triadic interactions, accurately predicting splay, cyclops, and chimera states across topologies and heterogeneities.