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- Oscillatory waves in an inhomogeneous excitable medium
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UBC Theses and Dissertations
Oscillatory waves in an inhomogeneous excitable medium Prat, Alain
Abstract
An excitable medium is a nonlinear dissipative dynamical system able to sustain undamped wave propagation. Examples of excitable media include cardiac tissue and neural media. This thesis investigates a class of novel dynamical phenomena in excitable media, known collectively as oscillatory waves. The examples of oscillatory waves considered here are Tango waves, breathers and pulse generators. Tango waves, also known as oscillatory fronts, are characterized by a back-and-forth motion of a wavefront. Breathers, also known as oscillatory pulses, are characterized by an expanding and contracting motion of a pulse-shaped pattern. Pulse generators are breathers that periodically emit traveling pulses. These oscillatory waves are caused by the presence of either a timeindependent forcing or spatial variation in a model parameter. The main point of this thesis is that oscillatory fronts or pulses can be understood as emerging from the Hopf bifurcation of a stationary front or pulse, respectively. The secondary point of this thesis is to investigate secondary bifurcations connected to the Hopf bifurcation. Possible applications of oscillatory waves will also be discussed. Analytical and numerical methods are used to compute the equilibrium solutions and the spectrum of their linearizations for piecewise linear and cubic Fitzhugh-Nagumo models of excitable media. Combining this with numerical simulations allows us to link oscillatory waves with a Hopf bifurcation. A center manifold reduction allows us to also connect the oscillatory waves to a generalized Hopf bifurcation.
Item Metadata
Title |
Oscillatory waves in an inhomogeneous excitable medium
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Creator | |
Publisher |
University of British Columbia
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Date Issued |
2005
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Description |
An excitable medium is a nonlinear dissipative dynamical system able to sustain undamped
wave propagation. Examples of excitable media include cardiac tissue and neural
media. This thesis investigates a class of novel dynamical phenomena in excitable media,
known collectively as oscillatory waves. The examples of oscillatory waves considered
here are Tango waves, breathers and pulse generators. Tango waves, also known as oscillatory
fronts, are characterized by a back-and-forth motion of a wavefront. Breathers,
also known as oscillatory pulses, are characterized by an expanding and contracting motion
of a pulse-shaped pattern. Pulse generators are breathers that periodically emit
traveling pulses. These oscillatory waves are caused by the presence of either a timeindependent
forcing or spatial variation in a model parameter. The main point of this
thesis is that oscillatory fronts or pulses can be understood as emerging from the Hopf
bifurcation of a stationary front or pulse, respectively. The secondary point of this thesis
is to investigate secondary bifurcations connected to the Hopf bifurcation. Possible
applications of oscillatory waves will also be discussed.
Analytical and numerical methods are used to compute the equilibrium solutions and the
spectrum of their linearizations for piecewise linear and cubic Fitzhugh-Nagumo models of
excitable media. Combining this with numerical simulations allows us to link oscillatory
waves with a Hopf bifurcation. A center manifold reduction allows us to also connect the
oscillatory waves to a generalized Hopf bifurcation.
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Genre | |
Type | |
Language |
eng
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Date Available |
2009-12-15
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Provider |
Vancouver : University of British Columbia Library
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Rights |
For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use.
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DOI |
10.14288/1.0092145
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URI | |
Degree | |
Program | |
Affiliation | |
Degree Grantor |
University of British Columbia
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Graduation Date |
2005-11
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Campus | |
Scholarly Level |
Graduate
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Aggregated Source Repository |
DSpace
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Item Media
Item Citations and Data
Rights
For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use.