Exploring Geometrical Properties of Chaotic Systems Through an Analysis of the Rulkov Neuron Maps

While extensive research has been conducted on chaos emerging from a dynamical system's temporal dynamics, the research documented in this paper examines extreme sensitivity to initial conditions in discrete-time dynamical systems from a geometrical perspective. The heart of this paper focuses on two simple neuron maps developed by Nikolai F. Rulkov in the early 2000s and the complex geometrical structures that emerge from them. Beginning with a conversational introduction to the geometry of chaos, this paper integrates mathematics, physics, neurobiology, computational modeling, and electrochemistry to present original research that provides a novel perspective on how types of geometrical sensitivity to initial conditions appear in discrete-time neuron systems. This paper was developed in the Thomas Jefferson High School for Science and Technology Quantum Lab as part of a senior research project.