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引用次数: 12
摘要
据报道,测量生物对流模式的演变在浅,微生物稠密的培养受到不同的重力。这种随机的准二维结构的各种统计性质已经被发现:Aboav定律被遵守,平均顶点角遵循正多边形的预测,并且图案的面积随其边数线性变化。当重力在1g和1.8g (g = 9.8 m s-1)之间变化时,尽管多边形数量增加了三倍,平均多边形尺寸减少了三分之一,但这些统计特性仍然保持不变。这项工作与肥皂泡沫、朗缪尔单层泡沫、金属颗粒和模拟实验进行了比较。
Evolution of bioconvective patterns in variable gravity.
Measurements are reported of the evolution of bioconvective patterns in shallow, dense cultures of microorganisms subjected to varying gravity. Various statistical properties of this random, quasi-two-dimensional structure have been found: Aboav's law is obeyed, the average vertex angles follow predictions for regular polygons, and the area of a pattern varies linearly with its number of sides. As gravity varies between 1 g and 1.8g (g = 9.8 m s-1), these statistical properties continue to hold despite a tripling of the number of polygons and a reduced average polygon dimension by a third. This work compares with experiments on soap foams, Langmuir monolayer foams, metal grains, and simulations.
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