長鏈被動粒子浸於主動群泳菌落的結構動力學;Configuration dynamics of long passive filaments immersed in swarming bacteria bath

Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/95047

Title:	長鏈被動粒子浸於主動群泳菌落的結構動力學;Configuration dynamics of long passive filaments immersed in swarming bacteria bath
Authors:	徐嘉駿;Shiu, Jia-Jiun
Contributors:	物理學系
Keywords:	群泳;細緻平衡的破壞;Swarming;Broken detailed balance
Date:	2024-06-20
Issue Date:	2024-10-09 15:45:21 (UTC+8)
Publisher:	國立中央大學
Abstract:	群泳被認為是主動運動，意即微生物於表面上進行集體快速噴射或漩渦運動。先前研究已經聚焦於群泳微生物所展現的非平衡物理之基本物理原則 [1, 2]。然而，由於使用球形粒子作為追蹤物的極限，發生在高維空間尺度的群泳動力學仍然所知甚少。在本論文中，我們研究長鏈被動追蹤物(DH5\textalpha，極低活動度的長鏈細菌)在群泳菌群(\emph{Vibrio alginolyticus})中的動力學，其中，群泳菌群作為非平衡力的來源。此方法類似於近年使用奈米碳管探索多維細胞骨架的運動模式 [3]。首先，我們由追蹤物的中心點和端點的均方根位移去分析並比較不同長度追蹤物之間的不同。其次，我們透過分解追蹤物的形狀為簡振模的強度並轉化為二維的構形(模態對)相空間，從中觀察其形狀變化。藉由計算相空間的機率通量，我們從通量流場發現通量環在短時間或單一軌跡出現，代表著其細緻平衡的破壞，然而在經過長時間平均後，通量環便無法觀測到。我們結合其他統計結果並提出此現象發生的原因。;Swarming refers to a collective rapid jet flow or swirling motion of microorganisms on a surface, which is considered active motion. Previous studies have focused on the underlying physical principles of the non-equilibrium dynamics generated by swarming microorganisms [1, 2]. However, the swarming dynamics occurring on multiple spatiotemporal scales are still poorly understood due to the limited capability of the employed spherical tracers. Here, we investigate the dynamics of a long passive filament (DH5\textalpha, a long bacteria with engineered immotile flagella) in a bacterial swarming bath (\emph{Vibrio alginolyticus}), which serves as the source of non-equilibrium forces. This method is similar to a recent demonstration that uncovered the multiscale cytoskeletal dynamics of a cell using carbon nanotube [3]. We first obtain the mean-squared displacement of end-points and middle points of cells to compare the difference results in three length scales of tracers. Secondly, we analyze the filament shapes at each moment as follows. Each configuration is decomposed into several normal mode amplitudes. Then, in the configurational (mode-pair) phase space, we generate the probability flux between mode-pairs to obtain the current field. We find flux loops that indicate broken detailed balance for single and short-time trajectories, while no obvious loops for long-time averaged ones.
Appears in Collections:	[Graduate Institute of Physics] Electronic Thesis & Dissertation

Files in This Item:

File	Description	Size	Format
index.html		0Kb	HTML	21	View/Open

社群 sharing

Loading...