Add to ORKGThe selection of shape and rotation frequency for scroll waves in reaction-diffusion equations modeling excitable media is investigated. For scrolls with uniform twist about straight filaments, asymptotic methods are used to derive free-boundary equations at leading and first order. Both orders are validated against full solutions of the reaction-diffusion equations. Using these two orders and with no adjustable parameters, the shape and frequency of waves are correctly predicted except possibly near the point of propagation failure where the core becomes large
We study numerically the dynamics of a scroll wave in a three-dimensional (3D) excitable medium in t...
We study the dynamics of rotating scroll waves in three-dimensional excitable systems. Experiments a...
We study numerically the dynamics of a scroll wave in a three-dimensional (3D) excitable medium in t...
Three-dimensional scroll waves are considered in a reaction-diffusion model of excitable media in th...
Algebraic formulas predicting the frequencies and shapes of waves in a reaction-diffusion model of e...
Scroll waves are three-dimensional excitation patterns that rotate around a central filament curve; ...
We study numerically the behavior of a scroll wave in a three-dimensional excitable medium with step...
We study numerically the behavior of a scroll wave in a three-dimensional excitable medium with step...
We study numerically the behavior of a scroll wave in a three-dimensional excitable medium with step...
We investigated scroll waves in an inhomogeneous excitable 3D system with gradient of excitability. ...
In this paper the idea of Prandtl's boundary layer is exported to a field other than fluid dynamics....
The dynamics of axisymmetric and twisted scroll rings under homogeneous periodic forcing is studied ...
Scroll waves are three-dimensional excitation patterns that rotate around a central filament curve; ...
The dynamics of a scroll wave in an excitable medium with gradient excitability is studied in detail...
Scroll waves are three-dimensional excitation patterns that rotate around a central filament curve; ...
We study numerically the dynamics of a scroll wave in a three-dimensional (3D) excitable medium in t...
We study the dynamics of rotating scroll waves in three-dimensional excitable systems. Experiments a...
We study numerically the dynamics of a scroll wave in a three-dimensional (3D) excitable medium in t...
Three-dimensional scroll waves are considered in a reaction-diffusion model of excitable media in th...
Algebraic formulas predicting the frequencies and shapes of waves in a reaction-diffusion model of e...
Scroll waves are three-dimensional excitation patterns that rotate around a central filament curve; ...
We study numerically the behavior of a scroll wave in a three-dimensional excitable medium with step...
We study numerically the behavior of a scroll wave in a three-dimensional excitable medium with step...
We study numerically the behavior of a scroll wave in a three-dimensional excitable medium with step...
We investigated scroll waves in an inhomogeneous excitable 3D system with gradient of excitability. ...
In this paper the idea of Prandtl's boundary layer is exported to a field other than fluid dynamics....
The dynamics of axisymmetric and twisted scroll rings under homogeneous periodic forcing is studied ...
Scroll waves are three-dimensional excitation patterns that rotate around a central filament curve; ...
The dynamics of a scroll wave in an excitable medium with gradient excitability is studied in detail...
Scroll waves are three-dimensional excitation patterns that rotate around a central filament curve; ...
We study numerically the dynamics of a scroll wave in a three-dimensional (3D) excitable medium in t...
We study the dynamics of rotating scroll waves in three-dimensional excitable systems. Experiments a...
We study numerically the dynamics of a scroll wave in a three-dimensional (3D) excitable medium in t...