International audienceWe consider the linear growth-fragmentation equation arising in the modelling of cell division or polymerisation processes. For constant coefficients, we prove that the dynamics converges to the steady state with an exponential rate. The control on the initial data uses an elaborate L1 -norm that seems to be necessary. It also reflects the main idea of the proof which is to use an anti-derivative of the solution. The main technical difficulty is related to the entropy dissipation rate which is too weak to produce a Poincaré inequality
International audienceIn this note, we consider general growth-fragmentation equations from a probab...
International audienceIn population dynamics, more precisely in cell structured population, experime...
International audienceWe study the mathematical properties of a model of cell division structured by...
International audienceWe consider the linear growth-fragmentation equation arising in the modelling ...
AbstractWe consider a classical integro-differential equation that arises in various applications as...
Growth-fragmentation processes describe the evolution of systems of cells which grow continuously an...
AbstractWe study the asymptotic behavior of linear evolution equations of the type ∂tg=Dg+Lg−λg, whe...
International audienceGrowth-fragmentation equations arise in many different contexts, ranging from ...
The growth-fragmentation equation describes a system of growing and dividing particles, and arises i...
Growth-fragmentation processes model systems of cells that grow continuously over time and then frag...
International audienceWe study the asymptotic behaviour of the following linear growth-fragmentation...
International audienceWe are interested in the long-time asymptotic behavior of growth-fragmentation...
International audienceWe consider the growth-fragmentation equation and we address the problem of fi...
Fragmentation and growth-fragmentation equations is a family of problems with varied and wide applic...
International audienceFragmentation and growth-fragmentation equations is a family of problems with ...
International audienceIn this note, we consider general growth-fragmentation equations from a probab...
International audienceIn population dynamics, more precisely in cell structured population, experime...
International audienceWe study the mathematical properties of a model of cell division structured by...
International audienceWe consider the linear growth-fragmentation equation arising in the modelling ...
AbstractWe consider a classical integro-differential equation that arises in various applications as...
Growth-fragmentation processes describe the evolution of systems of cells which grow continuously an...
AbstractWe study the asymptotic behavior of linear evolution equations of the type ∂tg=Dg+Lg−λg, whe...
International audienceGrowth-fragmentation equations arise in many different contexts, ranging from ...
The growth-fragmentation equation describes a system of growing and dividing particles, and arises i...
Growth-fragmentation processes model systems of cells that grow continuously over time and then frag...
International audienceWe study the asymptotic behaviour of the following linear growth-fragmentation...
International audienceWe are interested in the long-time asymptotic behavior of growth-fragmentation...
International audienceWe consider the growth-fragmentation equation and we address the problem of fi...
Fragmentation and growth-fragmentation equations is a family of problems with varied and wide applic...
International audienceFragmentation and growth-fragmentation equations is a family of problems with ...
International audienceIn this note, we consider general growth-fragmentation equations from a probab...
International audienceIn population dynamics, more precisely in cell structured population, experime...
International audienceWe study the mathematical properties of a model of cell division structured by...