Add to ORKGThe journey of mammalian spermatozoa in nature is well-known to be reliant on their individual motility. Often swimming in crowded microenvironments, the progress of any single swimmer is likely dependent on their interactions with other nearby swimmers. Whilst the complex dynamics of lone spermatozoa have been well-studied, the detailed effects of hydrodynamic interactions between neighbors remain unclear, with inherent nonlinearity in the governing hydrodynamics and potential dependence on the details of swimmer morphology. In this study we will attempt to elucidate the pairwise swimming behaviors of virtual spermatozoa, forming a computational representation of an unbound swimming pair and evaluating the details of their interactions via...
Abstract Swimming microorganisms such as bacteria or spermatozoa are typically found in dense suspen...
Swimming cells and microorganisms are as diverse in their collective dynamics as they are in their i...
It has been suggested that the swimming mechanism used by spermatozoa could be adopted for self-prop...
The journey of mammalian spermatozoa in nature is well-known to be reliant on their individual motil...
Although hydrodynamic interactions and cooperative swimming of mammalian sperm are observed, the key...
Sperm swimming at low Reynolds number have strong hydrodynamic interactions when their concentration...
Various locomotion strategies employed by microorganisms are observed in complex biological environm...
International audienceWe examine the phenomenon of hydrodynamic-induced cooperativity for pairs of f...
Swimming microorganisms such as bacteria or spermatozoa are typically found in dense suspensions, an...
Sperm of certain species engage in cooperative swimming behaviors which result in differences in vel...
The hydrodynamic behaviors of sperms in confined spaces (e.g. Poiseuille flow and quiescent flow bet...
Mammalian sperm cells manage locomotion by the movement of their flagella. Dynein motors inside the ...
AbstractSperm are propelled by an actively beating tail, and display a wide variety of swimming patt...
Sperm are propelled by an actively beating tail, and display a wide variety of swimming patterns. Wh...
Sperm are propelled by an actively beating tail, and display a wide variety of swimming patterns. Wh...
Abstract Swimming microorganisms such as bacteria or spermatozoa are typically found in dense suspen...
Swimming cells and microorganisms are as diverse in their collective dynamics as they are in their i...
It has been suggested that the swimming mechanism used by spermatozoa could be adopted for self-prop...
The journey of mammalian spermatozoa in nature is well-known to be reliant on their individual motil...
Although hydrodynamic interactions and cooperative swimming of mammalian sperm are observed, the key...
Sperm swimming at low Reynolds number have strong hydrodynamic interactions when their concentration...
Various locomotion strategies employed by microorganisms are observed in complex biological environm...
International audienceWe examine the phenomenon of hydrodynamic-induced cooperativity for pairs of f...
Swimming microorganisms such as bacteria or spermatozoa are typically found in dense suspensions, an...
Sperm of certain species engage in cooperative swimming behaviors which result in differences in vel...
The hydrodynamic behaviors of sperms in confined spaces (e.g. Poiseuille flow and quiescent flow bet...
Mammalian sperm cells manage locomotion by the movement of their flagella. Dynein motors inside the ...
AbstractSperm are propelled by an actively beating tail, and display a wide variety of swimming patt...
Sperm are propelled by an actively beating tail, and display a wide variety of swimming patterns. Wh...
Sperm are propelled by an actively beating tail, and display a wide variety of swimming patterns. Wh...
Abstract Swimming microorganisms such as bacteria or spermatozoa are typically found in dense suspen...
Swimming cells and microorganisms are as diverse in their collective dynamics as they are in their i...
It has been suggested that the swimming mechanism used by spermatozoa could be adopted for self-prop...