Home Todos os Eventos Details - Tung To: Nonlinear adhesion dynamics of confined bilayer lipid membranes

EMail Print

Todos os Eventos

Event 

Title:
Tung To: Nonlinear adhesion dynamics of confined bilayer lipid membranes
When:
17.04.2017 16.00 h
Where:
Auditório 201 - Niterói
Category:
Seminários

Description

Seminário de Mecânica Estatística

 

O seminário de Mecânica Estatística será apresentado HOJE, 17/04/2017, às 16:00h, na sala 201 do Instituto de Física.

ATENÇÃO PARA A MUDANÇA DE SALA.

Título: Nonlinear adhesion dynamics of confined bilayer lipid membranes

Apresentador: Tung To, IF-UFF

Lipid membranes, which are ubiquitous objects in biological environments are often confined. For example, they can be sandwiched between a substrate and the cytoskeleton between cell adhesion, or between other membranes in stacks, or in the Golgi apparatus. We present a study of the nonlinear dynamics of membranes in a model system, where the membrane is confined between two flat walls. The walls can be permeable or impermeable. We first derive a lubrication model for the membrane dynamics. The resulting dynamics is highly nonlinear and nonlocal. The solution of this model in one dimension exhibits frozen states due to oscillatory interactions between membranes caused by the bending rigidity. In two dimensions, the dynamics is more complex, and depends strongly on the amount of excess area in the system. Small area membranes form finite-size flat adhesion domains. In contrast, large area membrane forms of phase densely covered by wrinkles leading to a labyrinthine pattern and which do not evolve with time. In the intermediate membrane area regime, we find the coexistence of adhesion domains and wrinkles domains with coarsening. For small and intermediate membrane area, the effective membrane tension tends to two special values which can be related to the linear and nonlinear stability of flat fronts in the Swift-Hohenberg equation.

Venue

Map
Group:
Auditório 201
Street:
Av. Litorânea
ZIP:
24210-346
City:
Niterói
State:
RJ
Country:
Country: br

Description

Sorry, no description available
<<  Nov 24  >>
 Su  Mo  Tu  We  Th  Fr  Sa 
       1  2
  3  4  5  6  7  8  9
10111213141516
17181920
2425262730