Add to ORKGThe complex patterns observed in experiments on suspensions of swimming cells undergoing bioconvection have fascinated biologists, physicists and mathematicians alike for over a century. Theoretical models developed over the last few decades have shown a strong similarity with Rayleigh–Bénard thermal convection, albeit with a richer dynamical behaviour due to the orientational degrees of freedom of the cells. In a recent paper, Hwang & Pedley (J. Fluid Mech., vol. 738, 2014, pp. 522–562) revisit previous models for bioconvection to investigate the effects of an external shear flow on pattern formation. In addition to casting light on new mechanisms for instability, their study demonstrates a subtle interplay between shear, swimming moti...
AbstractTo swim, a bacterium pushes against the fluid within which it is immersed, generating fluid ...
Understanding biolocomotion in fluids has long been a focus of fluid dynamicists. One method to quan...
We investigate pattern formation by swimming micro-organisms (bioconvection), when their orientation...
In still water, the motion of many species of bacteria and algae is biased in a particular direction...
Bioconvection patterns are usually observed in the laboratory in shallow suspensions of randomly, bu...
The following explores the behaviour of self propelled micro organisms throughout various flows, set...
The world of cellular biology provides us with many fascinating fluid dynamical phenomena that lie a...
The mechanical behaviour and symmetry-breaking shape deformation of red blood cells subjected to she...
Both biological micro-organisms and synthetic micro-robots propel through viscous liquids to achieve...
Micro-organisms first appeared on earth about 3.8 billion years ago and can be found almost everywhe...
Interactions between microorganisms and their complex flowing environments are essential in many bio...
ABSTRACT To swim, a bacterium pushes against the fluid within which it is immersed, generating fluid...
Many aquatic microorganisms are able to swim. In natural environments they typically do so in the pr...
The non-linear structure of deep, stochastic, gyrotactic bioconvection is explored. A linear analysi...
Microscale propulsion is integral to numerous biomedical systems, including biofilm formation and hu...
AbstractTo swim, a bacterium pushes against the fluid within which it is immersed, generating fluid ...
Understanding biolocomotion in fluids has long been a focus of fluid dynamicists. One method to quan...
We investigate pattern formation by swimming micro-organisms (bioconvection), when their orientation...
In still water, the motion of many species of bacteria and algae is biased in a particular direction...
Bioconvection patterns are usually observed in the laboratory in shallow suspensions of randomly, bu...
The following explores the behaviour of self propelled micro organisms throughout various flows, set...
The world of cellular biology provides us with many fascinating fluid dynamical phenomena that lie a...
The mechanical behaviour and symmetry-breaking shape deformation of red blood cells subjected to she...
Both biological micro-organisms and synthetic micro-robots propel through viscous liquids to achieve...
Micro-organisms first appeared on earth about 3.8 billion years ago and can be found almost everywhe...
Interactions between microorganisms and their complex flowing environments are essential in many bio...
ABSTRACT To swim, a bacterium pushes against the fluid within which it is immersed, generating fluid...
Many aquatic microorganisms are able to swim. In natural environments they typically do so in the pr...
The non-linear structure of deep, stochastic, gyrotactic bioconvection is explored. A linear analysi...
Microscale propulsion is integral to numerous biomedical systems, including biofilm formation and hu...
AbstractTo swim, a bacterium pushes against the fluid within which it is immersed, generating fluid ...
Understanding biolocomotion in fluids has long been a focus of fluid dynamicists. One method to quan...
We investigate pattern formation by swimming micro-organisms (bioconvection), when their orientation...