A First Order Phase Transition Resulting from Finite Inertia in Coupled Oscillator Systems

スポンサーリンク

概要

• 論文の詳細を見る

• We analyze the collective behavior of a set of coupled damped driven pendula with finite (non-small) inertia, and show that the synchronization of the oscillators exhibits a first order phase transition synchronization onset being substantially different from the second order transition obtained in the limit of no inertia. There is also hysteresis between two macroscopic states, a weakly and a strongly coherent synchronized state, depending on the coupling and the initial state of the oscillators. A self-consistent theory ls shown to determine these cooperative phenomena and to predict the observed numerical data in specific examples.

• 社団法人電子情報通信学会の論文
• 1996-12-19

著者

• Lichtenberg Allan

  Electronics Research Laboratory And Department Of Electrical Engineering And Computer Sciences Unive

• Tanaka Hisa-Aki

  Electronics Research Laboratory and Department of Electrical Engineering and Computer Sciences, Univ

• Tanaka Hisa-aki

  Electronics Research Laboratory And Department Of Electrical Engineering And Computer Sciences Unive

• Lichtenberg Allan

  Electronics Research Laboratory And Department Of Electrical Engineering And Computer Sciences Unive

関連論文

• あるクラスの大自由度結合振動子系における協調現象
• A First Order Phase Transition Resulting from Finite Inertia in Coupled Oscillator Systems

スポンサーリンク