This document contains supporting information regarding the simulation methods, multipole expansions, introduction of stochasticity, cluster identification, development of the drag-based model, and the analysis of the fluid energy spectrum
Recent mathematical fluid dynamics models have shed light into an outstanding problem in reproductiv...
Collective swimming is evident in the sperm of several mammalian species. In bull (Bos taurus) sperm...
Eukaryotic cell swimming is frequently actuated via the flagellum, which is a slender flexible appen...
The simulation of 1000 swimmers with stochastically-varying undulation frequencies starting from a p...
An excerpt from the simulation of 1000 swimmers with fixed undulation frequencies starting from a po...
The simulation of 1000 swimmers with stochastically-varying undulation frequencies starting from an ...
A simulation of 500 swimmers (effective area fraction 1.59) with fully resolved hydrodynamics starti...
Swimming cells and microorganisms are as diverse in their collective dynamics as they are in their i...
The simulation of 1000 swimmers with fixed undulation frequencies starting from a polar configuratio...
Mammalian spermatozoa motility is a subject of growing importance because of rising human infertilit...
The propulsion mechanics driving the movement of living cells constitutes one of the most incredible...
The detailed fluid mechanics of sperm propulsion are fundamental to our understanding of reproductio...
In one of the first examples of how mechanics can inform axonemal mechanism, Machin's study in the 1...
The flagellar beat is extracted from human sperm digital imaging microscopy and used to determine th...
Mammalian spermatozoa motility is a subject of growing importance because of rising human infertilit...
Recent mathematical fluid dynamics models have shed light into an outstanding problem in reproductiv...
Collective swimming is evident in the sperm of several mammalian species. In bull (Bos taurus) sperm...
Eukaryotic cell swimming is frequently actuated via the flagellum, which is a slender flexible appen...
The simulation of 1000 swimmers with stochastically-varying undulation frequencies starting from a p...
An excerpt from the simulation of 1000 swimmers with fixed undulation frequencies starting from a po...
The simulation of 1000 swimmers with stochastically-varying undulation frequencies starting from an ...
A simulation of 500 swimmers (effective area fraction 1.59) with fully resolved hydrodynamics starti...
Swimming cells and microorganisms are as diverse in their collective dynamics as they are in their i...
The simulation of 1000 swimmers with fixed undulation frequencies starting from a polar configuratio...
Mammalian spermatozoa motility is a subject of growing importance because of rising human infertilit...
The propulsion mechanics driving the movement of living cells constitutes one of the most incredible...
The detailed fluid mechanics of sperm propulsion are fundamental to our understanding of reproductio...
In one of the first examples of how mechanics can inform axonemal mechanism, Machin's study in the 1...
The flagellar beat is extracted from human sperm digital imaging microscopy and used to determine th...
Mammalian spermatozoa motility is a subject of growing importance because of rising human infertilit...
Recent mathematical fluid dynamics models have shed light into an outstanding problem in reproductiv...
Collective swimming is evident in the sperm of several mammalian species. In bull (Bos taurus) sperm...
Eukaryotic cell swimming is frequently actuated via the flagellum, which is a slender flexible appen...
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