Abstract
Background: Currently, some modern spectroscopic applications require sub-terahertz and terahertz continuous-wave electromagnetic radiation sources with power levels from 0.1 to 100 W. Gyrotron, a powerful high-frequency vacuum electronics device, is considered one of the promising sources for these aims. Methods: Modification of the gyrotron design promotes the widespread use of these devices for DNP/NMR spectroscopy. Results: Promising non-canonical concepts are presented, the features of which compare favorably with the classical gyrotron scheme. Conclusion: The gyrotron concepts we considered allow us to master the terahertz range and develop a unique gyrotron installation for each scientific group, considering the specifics of their scientific research.
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