Scaling laws for the response of nonlinear elastic media with implications for cell mechanics

Yair Shokef; Samuel A. Safran

doi:10.1103/PhysRevLett.108.178103

Scaling laws for the response of nonlinear elastic media with implications for cell mechanics

Yair Shokef, Samuel A. Safran

Tel Aviv University, Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

Abstract

We show how strain stiffening affects the elastic response to internal forces, caused either by material defects and inhomogeneities or by active forces that molecular motors generate in living cells. For a spherical force dipole in a material with a strongly nonlinear strain energy density, strains change sign with distance, indicating that, even around a contractile inclusion or molecular motor, there is radial compression; it is only at a long distance that one recovers the linear response in which the medium is radially stretched. Scaling laws with irrational exponents relate the far-field renormalized strain to the near-field strain applied by the inclusion or active force.

Original language	English
Article number	178103
Journal	Physical Review Letters
Volume	108
Issue number	17
DOIs	https://doi.org/10.1103/PhysRevLett.108.178103
State	Published - 24 Apr 2012

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.108.178103

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title = "Scaling laws for the response of nonlinear elastic media with implications for cell mechanics",

abstract = "We show how strain stiffening affects the elastic response to internal forces, caused either by material defects and inhomogeneities or by active forces that molecular motors generate in living cells. For a spherical force dipole in a material with a strongly nonlinear strain energy density, strains change sign with distance, indicating that, even around a contractile inclusion or molecular motor, there is radial compression; it is only at a long distance that one recovers the linear response in which the medium is radially stretched. Scaling laws with irrational exponents relate the far-field renormalized strain to the near-field strain applied by the inclusion or active force.",

author = "Yair Shokef and Safran, {Samuel A.}",

note = "ISF; Perlman Family FoundationWe thank Eran Bouchbinder, Benjamin Friedrich, Doron Kushnir, Itamar Procaccia, and Ulrich Schwarz for helpful discussions. We thank the ISF and the Perlman Family Foundation for financial support.",

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N2 - We show how strain stiffening affects the elastic response to internal forces, caused either by material defects and inhomogeneities or by active forces that molecular motors generate in living cells. For a spherical force dipole in a material with a strongly nonlinear strain energy density, strains change sign with distance, indicating that, even around a contractile inclusion or molecular motor, there is radial compression; it is only at a long distance that one recovers the linear response in which the medium is radially stretched. Scaling laws with irrational exponents relate the far-field renormalized strain to the near-field strain applied by the inclusion or active force.

AB - We show how strain stiffening affects the elastic response to internal forces, caused either by material defects and inhomogeneities or by active forces that molecular motors generate in living cells. For a spherical force dipole in a material with a strongly nonlinear strain energy density, strains change sign with distance, indicating that, even around a contractile inclusion or molecular motor, there is radial compression; it is only at a long distance that one recovers the linear response in which the medium is radially stretched. Scaling laws with irrational exponents relate the far-field renormalized strain to the near-field strain applied by the inclusion or active force.

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Scaling laws for the response of nonlinear elastic media with implications for cell mechanics

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