We consider a linear rate equation, depending on three parameters, that model fragmentation. For each of these fragmentation equations, there is a corresponding stochastic model, from which we construct an explicit solution to the equation. This solution is proved unique. We then use this solution to obtain criteria for the presence or absence of loss of mass in the fragmentation equation, as a function of the equation parameters. Next, we investigate small and large times asymptotic behavior of the total mass for a wide class of parameters. Finally, we study the loss of mass in the stochastic models.ou
We make use of Laplace transform techniques and the method of characteristics to solve fragmentation...
We look at models of fragmentation with growth. In such a model, one has a number of independent cel...
AbstractIn the paper we shall present a survey of recent results on substochastic semigroups and pro...
AbstractWe consider a linear rate equation, depending on three parameters, that model fragmentation....
Exact and asymptotic solutions to a linear rate equation for fragmentation with mass loss are prese...
Explicit solutions of a linear rate equation lead to an improved understanding of fragmentation wit...
A linear rate equation describes fragmentation with continuous and discrete mass loss typified by c...
Random and deterministic fragmentation models are considered. Their relationship is studied by deriv...
The subject of this paper is a fragmentation equation with non-conservative solutions, some mass bei...
Fragmentation processes serve as stochastic models for a mass that falls apart randomly as time pass...
We investigate the loss of mass to dust for a class of fragmentation processes. We characterize, in ...
AbstractA linear integro-differential equation modelling multiple fragmentation with inherent mass l...
A linear integro-differential equation modelling multiple fragmentation with inherent mass loss is i...
International audienceWe consider the fragmentation equation $\dfrac{\partial}{\partial t}f (t, x) =...
It is rather difficult to understand theoretically and to analyse the experimental data concerning t...
We make use of Laplace transform techniques and the method of characteristics to solve fragmentation...
We look at models of fragmentation with growth. In such a model, one has a number of independent cel...
AbstractIn the paper we shall present a survey of recent results on substochastic semigroups and pro...
AbstractWe consider a linear rate equation, depending on three parameters, that model fragmentation....
Exact and asymptotic solutions to a linear rate equation for fragmentation with mass loss are prese...
Explicit solutions of a linear rate equation lead to an improved understanding of fragmentation wit...
A linear rate equation describes fragmentation with continuous and discrete mass loss typified by c...
Random and deterministic fragmentation models are considered. Their relationship is studied by deriv...
The subject of this paper is a fragmentation equation with non-conservative solutions, some mass bei...
Fragmentation processes serve as stochastic models for a mass that falls apart randomly as time pass...
We investigate the loss of mass to dust for a class of fragmentation processes. We characterize, in ...
AbstractA linear integro-differential equation modelling multiple fragmentation with inherent mass l...
A linear integro-differential equation modelling multiple fragmentation with inherent mass loss is i...
International audienceWe consider the fragmentation equation $\dfrac{\partial}{\partial t}f (t, x) =...
It is rather difficult to understand theoretically and to analyse the experimental data concerning t...
We make use of Laplace transform techniques and the method of characteristics to solve fragmentation...
We look at models of fragmentation with growth. In such a model, one has a number of independent cel...
AbstractIn the paper we shall present a survey of recent results on substochastic semigroups and pro...