Synchronization Properties of Slow Cortical Oscillations(Oscillation, Chaos and Network Dynamics in Nonlinear Science)
スポンサーリンク
概要
- 論文の詳細を見る
During slow-wave sleep, the brain shows slow oscillatory activity with remarkable long-range synchrony. Intracellular recordings show that the slow oscillation consists of two phases: an up state and a down state. Deriving the phase-response function of simplified neuronal systems, we examine the synchronization properties on slow oscillations between the up state and the down state. As a result, the strange interaction functions are found in some parameter ranges. These functions indicate that the states with the smaller phase lag than a critical value are all stable.
- 理論物理学刊行会の論文
- 2006-04-20
著者
-
Aoyagi Toshio
Graduate School Of Informatics Kyoto University
-
Aoyagi Toshio
Graduate School Of Informatics Kyoto University:crest Japan Science And Technology Agency
-
Fukai Tomoki
Riken Brain Science Institute:faculty Of Engineering Tamagawa University
-
TAKEKAWA Takashi
RIKEN Brain Science Institute
-
FUKAI Tomoki
RIKEN Brain Science Institute:Faculty of Engineering, Tamagawa University
関連論文
- Dynamics in Co-evolving Networks of Active Elements
- Synchronization Properties of Slow Cortical Oscillations(Oscillation, Chaos and Network Dynamics in Nonlinear Science)
- Phase Locking States in Network of Inhibitory Neurons : A Putative Role of Gap Junction(Cross-disciplinary Physics and Related Areas of Science and Technology)