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Slow Passage Through a Hopf Bifurcation in Excitable Nerve Cables: Spatial Delays and Spatial Memory Effects
L. M. Bilinsky,
Steven Baer
Mathematical and Statistical Sciences, School of (SoMSS)
Mathematical Computational Modeling Sciences Center, Simon A. Levin (MCMSC)
Research output
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Contribution to journal
›
Article
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peer-review
17
Scopus citations
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Dive into the research topics of 'Slow Passage Through a Hopf Bifurcation in Excitable Nerve Cables: Spatial Delays and Spatial Memory Effects'. Together they form a unique fingerprint.
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Mathematics
Memory Effect
100%
Cable
93%
Hopf Bifurcation
67%
Reaction-diffusion System
30%
Oscillation
23%
WKB Method
22%
Strong Coupling
21%
Spine
19%
Injection
16%
Bifurcation Analysis
15%
Assertion
15%
Exceed
13%
Numerical Methods
10%
Model
9%
Earth & Environmental Sciences
bifurcation
80%
cable
76%
oscillation
23%
temporal analysis
18%
effect
17%
parameter
15%
numerical method
13%
transition
9%
method
3%
Medicine & Life Sciences
Spatial Memory
82%
Memory
54%
Dendritic Spines
45%
Architectural Accessibility
44%
Injections
21%
Agriculture & Biology
nerve tissue
65%
oscillation
50%
injection site
32%
methodology
13%
Chemical Compounds
Memory Effect
95%
Length
29%
Fire
27%