Derives a nonlinear quantum master equation for an ensemble of two-level systems and obtains self-consistent analytical solutions for spontaneous macroscopic quantum synchronization, including phase diagrams and inter-group synchronization.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
verdicts
UNVERDICTED 2representative citing papers
A network of optomechanical oscillators is modeled as a platform for neuromorphic computing, with a demonstration that five nodes in all-to-all coupling can implement an XOR gate.
citing papers explorer
-
Spontaneous Macroscopic Quantum Synchronization in an Ensemble of Two-level Systems
Derives a nonlinear quantum master equation for an ensemble of two-level systems and obtains self-consistent analytical solutions for spontaneous macroscopic quantum synchronization, including phase diagrams and inter-group synchronization.
-
Neuromorphic computing with optomechanical oscillators
A network of optomechanical oscillators is modeled as a platform for neuromorphic computing, with a demonstration that five nodes in all-to-all coupling can implement an XOR gate.