2021年第68回応用物理学会春季学術講演会

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22 合同セッションM 「フォノンエンジニアリング」 » 22.1 合同セッションM 「フォノンエンジニアリング」

[17p-P07-1~6] 22.1 合同セッションM 「フォノンエンジニアリング」

2021年3月17日(水) 15:00 〜 15:50 P07 (ポスター)

15:00 〜 15:50

[17p-P07-2] Thermal self-synchronization of nano-objects

〇(P)Zhongwei Zhang1、Yangyu Guo1、Jie Chen2、Masahiro Nomura1、Sebastian Volz1 (1.IIS, Univ. of Tokyo、2.Univ. of Tongji)

キーワード:Thermal phonons, self-synchronization, collective motion

Self-synchronization is a ubiquitous phenomenon in nature, in which oscillators are collectively locked in frequency and phase through mutual interactions. While self-synchronization requires the forced excitation of at least one of the oscillators, we demonstrate that this mechanism spontaneously appears due to the activation from thermal fluctuations. By performing molecular dynamics simulations, we demonstrate self-synchronization in a platform supporting charged silicon resonator nanopillars having different eigenfrequencies. We find that pillar's vibrations are spontaneously converging to the same frequency and phase due to the coulomb interaction among the nanopillars. In addition, the dependencies on intrinsic frequency difference and coupling strength agree well with the Kuramoto model predictions. More interestingly, we find that a balance between energy dissipation resulting from phonon-phonon scattering and potential energy between oscillators is reached to maintain synchronization. While microscopic stochastic motions are known to follow random probability distributions, we finally prove that they also can yield coherent collective motions via self-synchronization.