TY - JOUR
T1 - The stability of solitons in biomembranes and nerves
AU - Lautrup, Benny Elley
AU - Appali, R.
AU - Jackson, Andrew D.
AU - Heimburg, Thomas Rainer
PY - 2011/6/9
Y1 - 2011/6/9
N2 - We examine the stability of a class of solitons, obtained from a generalization of the Boussinesq equation, which have been proposed to be relevant for pulse propagation in biomembranes and nerves. These solitons are found to be stable with respect to small-amplitude fluctuations. They emerge naturally from non-solitonic initial excitations and are robust in the presence of dissipation. Solitary waves pass through each other with only minor dissipation when their amplitude is small. Large-amplitude solitons fall apart into several pulses and small-amplitude noise upon collision when the maximum density of the membrane is limited by the density of the solid phase membrane.
AB - We examine the stability of a class of solitons, obtained from a generalization of the Boussinesq equation, which have been proposed to be relevant for pulse propagation in biomembranes and nerves. These solitons are found to be stable with respect to small-amplitude fluctuations. They emerge naturally from non-solitonic initial excitations and are robust in the presence of dissipation. Solitary waves pass through each other with only minor dissipation when their amplitude is small. Large-amplitude solitons fall apart into several pulses and small-amplitude noise upon collision when the maximum density of the membrane is limited by the density of the solid phase membrane.
U2 - 10.1140/epje/i2011-11057-0
DO - 10.1140/epje/i2011-11057-0
M3 - Journal article
SN - 1292-8941
VL - 34
SP - 11057
JO - The European Physical Journal E: Soft Matter and Biological Physics
JF - The European Physical Journal E: Soft Matter and Biological Physics
IS - 57
ER -