Live C. elegans Diffraction at a Single Point

J. Magnes, Cheris Congo, Miranda Hulsey-Vincent, H. Hastings, K. Raley-Susman
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引用次数: 1

Abstract

Using coherent light, we analyze the temporal diffraction at a single point from real-time living C. elegans locomotion in three-dimensional space. We describe the frequency spectrum of single swimming nematodes in an optical cuvette at a single sampling point in the far-field diffraction pattern. An analytical expression of the double slit is used to model the frequency spectra of nematodes as oscillating segments. The frequency spectrum in the diffraction pattern expands discretely and linearly as a multiple of the fundamental frequency with increasing distance from the central maximum. The frequency spectrum of a worm at a single point in the frequency spectrum contains all the frequencies involved in the locomotion and is used to characterize and compare nematodes. The occurrence of resonant frequencies in the dynamic diffraction pattern increases with the distance from the central maximum. The regular spacing of the resonant frequencies is used to identify characteristic swimming frequencies.
活秀丽隐杆线虫单点衍射
利用相干光,我们分析了秀丽隐杆线虫在三维空间中实时运动的单点时间衍射。我们描述了远场衍射图中单个采样点的光学比色皿中单个游动线虫的频谱。使用双狭缝的解析表达式来模拟线虫作为振荡段的频谱。衍射图案中的频谱随着与中心最大值的距离增加而离散地线性扩展为基频的倍数。蠕虫在频谱中单个点的频谱包含运动中涉及的所有频率,用于表征和比较线虫。动态衍射图案中谐振频率的出现随着距中心最大值的距离而增加。谐振频率的规则间隔用于识别特征游动频率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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