Add to ORKGA bacterial bath is a model active system consisting of a population of rodlike motile or self-propelled bacteria suspended in a fluid environment. This system can be viewed as an active, nonequilibrium version of a lyotropic liquid crystal or as a generalization of a driven diffusive system. We derive a set of phenomenological equations, which include the effects of internal force generators in the bacteria, describing the hydrodynamic flow, orientational dynamics of the bacteria, and fluctuations induced by both thermal and nonthermal noises. These equations violate the fluctuation dissipation theorem and the Onsager reciprocity relations. We use them to provide a quantitative account of results from recent microrheological experiments on...
AbstractThis article evaluates the hydrodynamic interactions between two swimming bacteria precisely...
The viscosity of a suspension of swimming bacteria is investigated analytically and numerically. We ...
Both biological micro-organisms and synthetic micro-robots propel through viscous liquids to achieve...
AbstractTo swim, a bacterium pushes against the fluid within which it is immersed, generating fluid ...
Abstract. E. coli bacteria swim in straight runs interrupted by sudden reorientation events called t...
ABSTRACT To swim, a bacterium pushes against the fluid within which it is immersed, generating fluid...
This dissertation introduces novel computationally efficient PDE models, which are used to investiga...
Active matter exhibits various forms of nonequilibrium states in the absence of external forcing, in...
We present two-dimensional simulations of chemotactic self-propelled bacteria swimming in ...
Graduate School. This dissertation introduces novel computationally efficient PDE models, which are ...
AbstractIt has been theoretically suggested that when a bacterium swims in a fluid, the disturbance ...
As a practical dynamical system approach to analyse microorganisms, we have used the system identifi...
Abstract. We present two-dimensional simulations of chemotactic self-propelled bacteria swim-ming in...
This thesis is devoted to understanding the effect of inter-particle interactions, external fields a...
Abstract. Suspensions of self-propelled microscopic particles, such as swimming bacteria, exhibit co...
AbstractThis article evaluates the hydrodynamic interactions between two swimming bacteria precisely...
The viscosity of a suspension of swimming bacteria is investigated analytically and numerically. We ...
Both biological micro-organisms and synthetic micro-robots propel through viscous liquids to achieve...
AbstractTo swim, a bacterium pushes against the fluid within which it is immersed, generating fluid ...
Abstract. E. coli bacteria swim in straight runs interrupted by sudden reorientation events called t...
ABSTRACT To swim, a bacterium pushes against the fluid within which it is immersed, generating fluid...
This dissertation introduces novel computationally efficient PDE models, which are used to investiga...
Active matter exhibits various forms of nonequilibrium states in the absence of external forcing, in...
We present two-dimensional simulations of chemotactic self-propelled bacteria swimming in ...
Graduate School. This dissertation introduces novel computationally efficient PDE models, which are ...
AbstractIt has been theoretically suggested that when a bacterium swims in a fluid, the disturbance ...
As a practical dynamical system approach to analyse microorganisms, we have used the system identifi...
Abstract. We present two-dimensional simulations of chemotactic self-propelled bacteria swim-ming in...
This thesis is devoted to understanding the effect of inter-particle interactions, external fields a...
Abstract. Suspensions of self-propelled microscopic particles, such as swimming bacteria, exhibit co...
AbstractThis article evaluates the hydrodynamic interactions between two swimming bacteria precisely...
The viscosity of a suspension of swimming bacteria is investigated analytically and numerically. We ...
Both biological micro-organisms and synthetic micro-robots propel through viscous liquids to achieve...