Abstract
Understanding the physics of superconductor-ferromagnet transistors and pseudospin-valve devices adds remarkable capabilities to the practical design of large superconducting circuits, in which energy dissipation is minimized. To maintain the quality and speed of large-circuit simulations, the phenomenological models of individual devices must be simplified as much as possible. The authors show how to combine nonlinear devices in a working superconducting circuit, and how two types of nonlinear elements, described by different physics, interact with each other and behave in large, complex electronic circuits.
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