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Critical field as a function of temperature for several
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analog computer axon bath temperature carrying a direct chapter circuit cm/s condition connected critical current critical field crystal substrate current IQ depend different parameters direct current discussed distributed version electrical time constant equal to zero equation representing evaporated experimental device FUNCTION OF TEMPERATURE hot normal region indium initiate a discharge interface Joule effect Joule heating lateral structure liquid helium logic function magnetic field mask mathematical model Maxwell's equations monostable element neuristor structure normal film normalized current-temperature plane obtain a structure order of magnitude possible practical realization propagate a discharge proximity effect pulse pumping Refractory period representative point results obtained shown on Fig silicon simulation specific heat speed of propagation substrate super superconducting region superconductive and normal superconductive film carrying superconductive material superconductive neuristor Suppose tantalum temperature of 3°K thermal conductivity thermal spreading thick trajectory transition curve trigger variable velocity of propagation voltage width wire