Abstract. E. coli bacteria swim in straight runs interrupted by sudden reorientation events called tumbles. The resulting random walks give rise to density fluctuations that can be derived analytically in the limit of non interacting particles or equivalently of very low concentrations. However, in situations of practical interest, the concentration of bacteria is always large enough to make interactions an important factor. Using molecular dynamics simulations, we study the dynamic structure factor of a model bacterial bath for increasing values of densities. We show that it is possible to reproduce the dynamics of density fluctuations in the system using a free run-and-tumble model with effective fitting parameters. We discuss the depende...
In this work we introduce a stochastic model to describe directional changes in the movement of swim...
The run and tumble motions of a swimming bacterium are well characterized by two stochastic variable...
Recent experiments on the green alga Chlamydomonas that swims using synchronized beating of a pair o...
In this thesis I study a model of self propelled particles exhibiting run-and tumble dynamics on lat...
In the present work we simulate the basic two-dimensional dynamics of swarming E. coli bacteria on t...
Abstract. We study a model of self propelled particles exhibiting run-and-tumble dynamics on lattice...
AbstractTo swim, a bacterium pushes against the fluid within which it is immersed, generating fluid ...
A bacterial bath is a model active system consisting of a population of rodlike motile or self-prope...
The bacterium Escherichia coli in suspension in a liquid medium swims by a succession of runs and tu...
ABSTRACT To swim, a bacterium pushes against the fluid within which it is immersed, generating fluid...
“From chaos, order can emerge”, a counterintuitive statement but also one laying the foundation for ...
<div><p>The bacterium <em>Escherichia coli</em> in suspension in a liquid medium swims by a successi...
Recent experiments on the green alga Chlamydomonas that swims using synchronized beating of a pair o...
Run-and-tumble dynamics is a wide-spread mechanism of swimming bacteria. The accumulation of run-and...
In the present work we simulate the basic two-dimensional dynamics of swarming E. coli bacteria on t...
In this work we introduce a stochastic model to describe directional changes in the movement of swim...
The run and tumble motions of a swimming bacterium are well characterized by two stochastic variable...
Recent experiments on the green alga Chlamydomonas that swims using synchronized beating of a pair o...
In this thesis I study a model of self propelled particles exhibiting run-and tumble dynamics on lat...
In the present work we simulate the basic two-dimensional dynamics of swarming E. coli bacteria on t...
Abstract. We study a model of self propelled particles exhibiting run-and-tumble dynamics on lattice...
AbstractTo swim, a bacterium pushes against the fluid within which it is immersed, generating fluid ...
A bacterial bath is a model active system consisting of a population of rodlike motile or self-prope...
The bacterium Escherichia coli in suspension in a liquid medium swims by a succession of runs and tu...
ABSTRACT To swim, a bacterium pushes against the fluid within which it is immersed, generating fluid...
“From chaos, order can emerge”, a counterintuitive statement but also one laying the foundation for ...
<div><p>The bacterium <em>Escherichia coli</em> in suspension in a liquid medium swims by a successi...
Recent experiments on the green alga Chlamydomonas that swims using synchronized beating of a pair o...
Run-and-tumble dynamics is a wide-spread mechanism of swimming bacteria. The accumulation of run-and...
In the present work we simulate the basic two-dimensional dynamics of swarming E. coli bacteria on t...
In this work we introduce a stochastic model to describe directional changes in the movement of swim...
The run and tumble motions of a swimming bacterium are well characterized by two stochastic variable...
Recent experiments on the green alga Chlamydomonas that swims using synchronized beating of a pair o...
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