Open Access
Issue
EPJ Web Conf.
Volume 187, 2018
30th Joint Russian-German Meeting on ECRH and Gyrotrons
Article Number 01025
Number of page(s) 2
DOI https://doi.org/10.1051/epjconf/201818701025
Published online 03 September 2018
  1. Yamazaki T., Miyazaki A., Suehara T., Namba T., Asai S., Kobayashi T., Saito H., Ogawa I., Idehara T., Sabchevski S. Direct Observation of the Hyperfine Transition of Ground-State Positronium // Phys. Rev. Lett. 2012. V. 108. No. 25. Art.no. 253401. [CrossRef] [Google Scholar]
  2. Belov S.P., Kazakov V.P., Krupnov A.F., Markov V.N., Mel’nikov A.A., Skvortsov V.A., Tret’yakov M.Yu. The study of microwave pressure lineshifts // J. Mol. Spectros. 1982. V.94. No. 2. P. 264–282. [CrossRef] [Google Scholar]
  3. Li H., Le Roy R.J. Quadrupole moment function and absolute infrared quadrupolar intensities for N2 // J. Chem. Phys. 2007. V. 126. No. 22. Art.no. 224301. [Google Scholar]
  4. Ba Y.A, Wenger C., Surleau R., Boudon V., Rotger M., Daumont L., Bonhommeau D.A., Tyuterev V.G., Dubernet M.-L. MeCaSDa and ECaSDa: Methane and ethene calculated spectroscopic databases for the virtual atomic and molecular data centre // J. Quant. Spectrosc. Radiat. Transf. 2013. V.130. P.62–68. [NASA ADS] [CrossRef] [Google Scholar]
  5. Chang T.H., Idehara T., Ogawa I., Agusu L., and Kobayashi S. Frequency tunable gyrotron using backwardwave components // J. Appl. Phys. 2009. V. 105. No. 6. Art. no. 063304. [Google Scholar]
  6. Barnes A.B., Nanni E.A., Hertzfeld J., Griffin R.G., and Temkin R.J. A 250 GHz gyrotron with a 3 GHz tuning bandwidth for dynamic nuclear polarization // J. Magn. Resonance. 2012. V. 221. P. 147–153. [CrossRef] [Google Scholar]
  7. Tarakanov V.P. Code KARAT in simulations of power microwave sources including Cherenkov plasma devices, vircators, orotron, E-field sensor, calorimeter etc. // EPJ Web of Conferences. 2017. V. 149. Art.no. 04024. [Google Scholar]
  8. Torrezan A.C., Shapiro M.A., Sirigiri J.R., Temkin R.J., Griffin R.G. Operation of a Continuously FrequencyTunable Second-Harmonic CW 330-GHz Gyrotron for Dynamic Nuclear Polarization // IEEE Trans. Electron. Dev. 2011. V. 58. No. 8. P. 2777–2783. [CrossRef] [Google Scholar]
  9. Qi X.-B., Du C.-H., Pan S., Ji X., Huang B., Liu P.K. Terahertz Broadband-Tunable Minigyrotron With a Pulse Magnet // IEEE Trans. Electron. Dev. 2017. V.64. No. 2. P. 527–535. [Google Scholar]
  10. Chang T.H., Chen S.H. Stepwise frequency tuning of a gyrotron backward-wave oscillator // Phys. Plasmas. 2004. V. 12. No. 1. Art.no. 013104. [Google Scholar]
  11. Bratman V.L., Fedotov A.E., Kalynov Yu.K., Osharin I.V., Zavolsky N.A. Smooth Wideband Frequency Tuning in Low-Voltage Gyrotron With Cathode-End Power Output // IEEE Trans. Electron Dev. 2017. V. 64. No. 12. P. 5147–5150. [CrossRef] [Google Scholar]

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