References
- Badapanda MK, Tripathi A, Upadhyay R, et al. High-power RF testing of 1-MW, 352.2 MHz continuous wave klystron amplifier. IEEE Trans Plasma Sci. 2015 Oct;43(10):3599–3607.
- Schweppe E-G, Bachmor R, Demmel E. Design and results of a 1.3 MW CW klystron for LEP. Proceedings of Particle Accelerator Conference; Washington (DC). 1993.
- Kant D, Joshi LM, Janyani V. Design of RF interaction structure for a 352.2 MHz, 100 kW (CW) power klystron. Proceedings of Asia-Pacific microwave conference; New Delhi. 2016.
- Gregory SN, Levush B, Abe DK. A review of the development of multiple-beam klystron and TWTs. Washington (DC): Research Report, Naval Research Laboratory, USA; 2003 Mar.
- TRAK User Manual. Available from: www.fieldp.com/trak.htm
- Gilmour AS. Microwave tubes. MA: Artech House.
- Basu BN. Electromagnetic theory and applications in beam wave electronics. Singapore: World Scientific Publishing Co. Pte Ltd.
- CST User Manual. Available from: www.cst.com
- Opera User Manual. Available from: www.opera.com
- Korolyov AN, Gelvich EA, Zhary YV, et al. Multiple-beam klystron amplifiers: performance parameters and development trends. IEEE Trans Plasma Sci. 2004 Jun;32(3):1109–1118.
- Nguyen KT, Abe DK, Pershing DE, et al. High-power four-cavity S-band multiple-beam klystron design. IEEE Trans Plasma Sci. 2004 Jun;32(3):1119–1135.10.1109/TPS.2004.828884