Effective-Area Elasticity and Tension of Micromanipulated Membranes
- 21 May 2001
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 86 (21) , 4970-4973
- https://doi.org/10.1103/physrevlett.86.4970
Abstract
We evaluate the effective Hamiltonian governing, at the optically resolved scale, the elastic properties of micromanipulated membranes. We identify floppy, entropic-tense and stretched-tense regimes, representing different behaviors of the effective-area elasticity of the membrane. The corresponding effective tension depends on the microscopic parameters (total area, bending rigidity) and on the optically visible area, which is controlled by the imposed external constraints. We successfully compare our predictions with recent data on micropipette experiments.Keywords
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This publication has 22 references indexed in Scilit:
- Microrheology of Biopolymer-Membrane ComplexesPhysical Review Letters, 2000
- Line tension of Langmuir monolayer phase boundaries determined with optical tweezersThe Journal of Chemical Physics, 2000
- Configurations of fluid membranes and vesiclesAdvances in Physics, 1997
- Statistical Thermodynamics of Surfaces, Interfaces, and MembranesPhysics Today, 1996
- The Elasticity of a Single Supercoiled DNA MoleculeScience, 1996
- The concept of effective tension for fluctuating vesiclesZeitschrift für Physik B Condensed Matter, 1995
- Vanishing tension of fluctuating membranesJournal de Physique II, 1991
- Entropy-driven tension and bending elasticity in condensed-fluid membranesPhysical Review Letters, 1990
- Dynamical fluctuations of droplet microemulsions and vesiclesPhysical Review A, 1987
- Undulations, steric interaction and cohesion of fluid membranesIl Nuovo Cimento D, 1984