Abstract
A number of Hall magnetic microsensors based on InAs and InSb microcrystals have been developed. Microcrystals are grown with the chemical transport reaction method, which ensures the formation of microcrystals with the required doping and shape. The electrophysical parameters of the microcrystals are similar to those of bulk crystals. Microcrystal-based microsensors have minimum dimensions, weight and power consumption. These microsensors are resistant to radiation exposure with fast neutrons and high-energy protons. They can operate in a temperature range reaching cryogenic temperatures, within a large range of magnetic induction. They are used for solving specific measurement problems in complicated magnetic systems, under conditions characterized by non-uniform magnetic induction distribution or high radiation. The design and characteristics can be customized.
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