注入同期の物理限界 [in Japanese] An Ideally Efficient Injection-locking [in Japanese]
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In this article, a universal mechanism governing entrainment limit is shown to exist under weak forcings. This underlying mechanism enables us to understand how and why entrainability is maximized; maximization of the entrainment range or that of the stability of entrainment for general forcings including pulse trains, and a fundamental limit of general m:n entrainment, are clarified from a unified, global viewpoint. These entrainment limits are verified in the Hodgkin-Huxley neuron model as an example.
- Bulletin of the Japan Society for Industrial and Applied Mathematics
Bulletin of the Japan Society for Industrial and Applied Mathematics 24(3), 103-109, 2014
The Japan Society for Industrial and Applied Mathematics