Evolution of Spiral Waves under Modulated Electric Fields
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Abstract
Spirals generated from the excitable media within the Barkley model is investigated under the gradient electric fields by a numerical simulation. The spiral drift and spiral break up are observed when the amplitude of the electric fields is modulated by a constant signal or a chaotic signal. It is also verified that, even in the presence of the white noise, the whole system can reach homogeneous states after the spiral breakup, by using an adaptive strategy.
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Cite this article:
MA Jun, YING He-Ping, PAN Guo-Wei, PU Zhong-Sheng. Evolution of Spiral Waves under Modulated Electric Fields[J]. Chin. Phys. Lett., 2005, 22(9): 2176-2179.
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MA Jun, YING He-Ping, PAN Guo-Wei, PU Zhong-Sheng. Evolution of Spiral Waves under Modulated Electric Fields[J]. Chin. Phys. Lett., 2005, 22(9): 2176-2179.
|
MA Jun, YING He-Ping, PAN Guo-Wei, PU Zhong-Sheng. Evolution of Spiral Waves under Modulated Electric Fields[J]. Chin. Phys. Lett., 2005, 22(9): 2176-2179.
|
MA Jun, YING He-Ping, PAN Guo-Wei, PU Zhong-Sheng. Evolution of Spiral Waves under Modulated Electric Fields[J]. Chin. Phys. Lett., 2005, 22(9): 2176-2179.
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