On the stability of knots in excitable media

Sutcliffe, Paul; Winfree, Arthur

doi:10.1103/PhysRevE.68.016218

On the stability of knots in excitable media

May, 2003

4 pages

Published in:

Phys.Rev.A 68 (2003) 016218

e-Print:

nlin/0305025 [nlin.PS]

DOI:

10.1103/PhysRevE.68.016218

View in:

pdf

reference search5 citations

Citations per year

Abstract:

Through extensive numerical simulations we investigate the evolution of knotted and linked vortices in the FitzHugh-Nagumo model. On medium time scales, of the order of a hundred times the vortex rotation period, knots simultaneously translate and precess with very little change of shape. However, on long time scales we find that knots evolve in a more complicated manner, with particular arcs expanding and contracting, producing substantial variations in the total length. The topology of a knot is preserved during the evolution and after several thousand vortex rotation periods the knot appears to approach an asymptotic state. Furthermore, this asymptotic state is dependent upon the initial conditions and suggests that, even within a given topology, a host of meta-stable configurations exist, rather than a unique stable solution. We discuss a possible mechanism for the observed evolution, associated with the impact of higher frequency wavefronts emanating from parts of the knot which are more twisted than the expanding arcs.

References(24)

Figures(0)

[1]

D. Barkley

- Physica D 49 (1991) 61

[2]

R. Mackenzie, M.B. Paranjape and W.J. Zakrzewski (eds.), Solitonic Strings and Knots, in Solitons CRM Series in Mathematical Physics (1999)

R.A. Battye
,
P.M. Sutcliffe

[3]

V.N. Biktashev
,
A.V. Holden
,
H. Zang

- Phil.Trans.Roy.Soc.Lond.A 347 (1994) 611

[4]

unpublished (1992)

T. Poston
,
A.T. Winfree

[5]

Stable Organizing Centres, PhD dissertation, University of Arizona (1993)

C.E. Henze

[6]

J.P. Keener

- Physica D 31 (1988) 269

[7]

V.I. Krinsky

- Z.Phys.Chem. 268 (1987) 4

[8]

A.S. Mikhailov
,
A.V. Panfilov
,
A.N. Rudenko

- Phys.Lett.A 109 (1985) 246

[9]

A.V. Pertsov
,
R.R. Aliev
,
V.I. Krinsky

- Nature 345 (1990) 419

[10]

Knot Dynamics in Excitable Media, in preparation

P.M. Sutcliffe
,
A.T. Winfree

[11]

M. Vinson

- Physica D 116 (1998) 313

[12]

F.X. Witkowski
,
L.J. Leon
,
P.A. Penkoske
,
W.R. Giles
,
M.L. Spano

et al.

- Nature 392 (1998) 78

[13]

A.T. Winfree

- Science 175 (1972) 634

[14]

A.T. Winfree

- SIAM Rev. 32 (1990) 1

[15]

A.T. Winfree

- Chaos Solitons Fractals 1 (1991) 303

[16]

A.T. Winfree

- Physica D 84 (1995) 126

[17]

S.J. Hogan et al. (eds.), A prime number of prime questions about vortex dynamics in nonlinear media, in Nonlinear Dynamics and Chaos: Where do we go from here? (2002)

A.T. Winfree

[18]

L.M. Riccardi (eds.), The dynamics of organizing centers, in Biomathematics and Related Computational Problems (1988)

A.T. Winfree
,
W. Guilford

[19]

A.T. Winfree
,
S.H. Strogatz

- Physica D 8 (1983) 35

[19]

- Physica D 9 (1983) 65

[19]

- Physica D 9 (1983) 335

[19]

- Physica D 13 (1984) 221

[19]

- Nature 311 (1984) 611

[20]

B hysics 31, 318 (1986)

E.A. Ermakova
,
V.I. Krinsky
,
A.V. Panfilov
,
A.M. Pertsov