Open AccessThe Microwave Sources for EPR Spectroscopy
Author(s) -
Mariusz Hruszowiec,
Kacper Nowak,
Bogusław Szlachetko,
Michał Grzelak,
W. Czarczyński,
Edward F. Pliński,
Tadeusz Więckowski
Publication year - 2017
Publication title -
journal of telecommunications and information technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.151
H-Index - 12
eISSN - 1899-8852
pISSN - 1509-4553
DOI - 10.26636/jtit.2017.107616
Subject(s) - klystron , gyrotron , microwave , electron paramagnetic resonance , spectroscopy , spectrometer , physics , cryostat , optoelectronics , engineering physics , materials science , computer science , optics , nuclear magnetic resonance , electron , telecommunications , beam (structure) , quantum mechanics , superconductivity
Rapid development of many scientific and technical disciplines, especially in material science and material engineering increases a demand for quick, accurate and cheap techniques of materials investigations. The EPR spectroscopy meets these requirements and it is used in many fields of science including biology, chemistry and physics. For proper work, the EPR spectrometer needs a microwave source, which are reviewed in this paper. Vacuum tubes as well as semiconductor generators are presented such as magnetron, klystron, traveling wave tube, backward wave oscillator, orotron, gyrotron, Gunn and IMPATT diodes. In this paper main advantages of gyrotron usage, such as stability and an increased spectral resolution in application to EPR spectroscopy is discussed. The most promising and reliable microwave source is suggested. Keywords—electron paramagnetic resonance, gyrotron EPR, microwave sources, orotron, terahertz waves.
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