References
- Siegel PH. Terahertz technology. IEEE Trans. Microwave Theory Tech. 2002;50:910–928.10.1109/22.989974
- Booske JH. Plasma physics and related challenges of millimeter-wave-to-terahertz and high power microwave generation. Phys. Plasmas. 2008;15:055502-1–055502-16.
- Woolard DL, Brown ER, Pepper M, Kemp M. Terahertz frequency sensing and imaging: a time of reckoning future applications? Proc. IEEE. 2005;93:1722–1743.10.1109/JPROC.2005.853539
- Linfield E. Terahertz applications: a source of fresh hope. Nat. Photonics. 2007;1:257–258.10.1038/nphoton.2007.56
- Bhattacharjee S, Booske JH, Kory CL, van der Weide DW, Limbach S, Gallagher S. Folded waveguide traveling-wave tube sources for terahertz radiation. IEEE Trans. Plasma Sci. 2004;32:1002–1014.10.1109/TPS.2004.828886
- Gong H, Gong Y, Tang T, Xu J, Wang W-X. Experimental investigation of a high-power Ka-band folded waveguide traveling-wave tube. IEEE Trans. Electron Devices. 2011;58:2159–2163.10.1109/TED.2011.2148119
- Shin YM, Baig A, Barnett LR, Tsai WC, Luhmann NC. System design analysis of a 0.22-THz sheet-beam traveling-wave tube amplifier. IEEE Trans. Electron Devices. 2012;59:234–240.10.1109/TED.2011.2173575
- Nusinovich GS, Cooke SJ, Botton M, Levush B. Wave coupling in sheet- and multiple-beam traveling-wave tubes. Phys. Plasmas. 2009;16:063–102.
- Dean EP, Khanh TN, David KA, Wright E, Paul BL, John P, Simon JC. Demonstration of a wideband 10-kW Ka-band sheet beam TWT amplifier. IEEE Trans. Electron Devices. 2014;61:1637–1642.
- Field M, Griffith Z, Young A, Hillman C, Brar B, Gamzina D, Barchfield R, Zhao JF, Spear A, Baig A, Domier C, Barnett L, Luhmann N, Kimura T, Atkinson J, Grant T, Goren Y, Reed T, Rodwell M. Development of a 220 GHz 50 W sheet beam travelling wave tube amplifier. Proceedings of IEEE International Vacuum Electronics Conference. April; Monterey (CA); 2014.
- Kory CL, Read ME, Ives RL, Booske JH, Borchard P. Design of overmoded interaction circuit for 1-kW 95-GHz TWT. IEEE Trans. Electron Devices. 2009;56:713–720.10.1109/TED.2009.2015405
- Comfoltey EN. Design of an overmoded W-band coupled cavity TWT [Ph.D. dissertation]. Cambridge (MA): MIT; 2009.
- Kowalski EJ, William CG, Michael AS, Richard JT. A 94 GHz overmoded coupled cavity TWT experiment. Proceedings of IEEE International Vacuum Electronics Conference. April; Monterey (CA); 2014.
- Gee A, Shin YM. Gain analysis of higher-order-mode amplification in a dielectric implanted multi-beam traveling wave structure. Phys. plasmas. 2013;20:073106-1–073106-7.
- Basten M, Tucek J, Gallagher D, Kreischer K, Liu J, Ives L, Manohara H. A multiple electron beam array for a 220 GHz amplifier. Proceedings of IEEE International Vacuum Electronics Conference. Rome; 2009.
- Tucek JC, Basten MA, Gallagher DA, Kreischer KE. 220 GHz power amplifier development at Northrop Grumman. Proceedings of IEEE International Vacuum Electronics Conference. Monterey (CA); 2012.
- Kreischer KE, Tucek JC, Basten MA, Gallagher DA. 220 GHz power amplifier testing at Northrop Grumman. Proceedings of IEEE International Vacuum Electronics Conference. Paris; 2013.
- Booske JH, Converse MC, Kory CL, Chevalier CT, Gallagher DA, Kreischer KE. Accurate parametric modeling of folded waveguide circuits for millimeter-wave traveling wave tubes. IEEE Trans. Electron Devices. 2005;52:685–694.10.1109/TED.2005.845798
- Marcuvitz N. Waveguide handbook. Stevenage: Peregrinus; 1986. p. 333–365.10.1049/PBEW021E
- Pierce JR. Traveling-wave tubes. Princeton (NJ): Van Nostrand; 1950.