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Analytical Exploration of New Tapered-Geometry Dielectric-Supported Helix Slow-Wave Structures for Broadband TWT's
By
S. Ghosh,

    Dr. S. Ghosh

    Banaras Hindu University

    India

    Homepage

Pradip Kumar Jain,

    Dr. Pradip Kumar Jain

    Department of Electronics Engineering

    Banaras Hindu University

    India

    Homepage

B. N. Basu

    Dr. B. N. Basu

    Dept Elect Engn, Inst Technol, Ctr Res Microwave Tubes

    Banaras Hindu Univ

    India

    Homepage

, Vol. 15, 63-85, 1997
doi:10.2528/PIER95011200 | Google Scholar

Abstract
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Citation
S. Ghosh, Pradip Kumar Jain, and B. N. Basu, "Analytical Exploration of New Tapered-Geometry Dielectric-Supported Helix Slow-Wave Structures for Broadband TWT's," , Vol. 15, 63-85, 1997.
doi:10.2528/PIER95011200
References

1. Paik, S. F., "Design formulas for helix dispersion shaping," IEEE Trans. Electron Devices, Vol. ED-16, 1010-1014, 1969.
doi:10.1109/T-ED.1969.16901        Google Scholar

2. Putz, J. L. and M. J. Cascone, "Effective use of dispersion shaping in broadband helix TWT circuits," Int. Electron Devices Meet. Tech. Dig., 422-424, 1979.        Google Scholar

3. Galuppy, P. and M. D. Salvatore, "Evaluation of three techniques of controlling phase velocity dispersion in helix TWT," Microwave Tubes in systems: Problems and Prospects, 59-62, 1984.        Google Scholar

4. Kravchenco, N. P., L. N. Loshakov, and Yu. N. Pchel’nikov, "Com putation of dispersion characteristics of a spiral placed in a screen with longitudinal ribs ," Radio Eng. Electron. Phys., Vol. 21, 33-39, 1979.        Google Scholar

5. Basu, B. N., B. B. Pal, V. N. Singh, and N. C. Vaidya, "Optimum design of a potentially dispersion-free helical slow-wave circuit of a broadband TWT ," IEEE Trans. Microwave Theo. and Tech., Vol. MTT-32, 461-463, 1985.        Google Scholar

6. Kumar, L., R. S. Raju, S. N. Joshi, and B. N. Basu, "Modeling of a vane-loaded helical slow-wave structure for broad-band traveling wave tubes," IEEE Trans. Electron Devices, Vol. ED-36, 1991-99, 1989.
doi:10.1109/16.34282        Google Scholar

7. Galuppi, P. and C. Lamesa, "A new technique for ultra-broadband high power TWTs," Military Microwave Conference Proceeding, Vol. MM-80, 501-505, 1980.        Google Scholar

8. Belohoubek, E. F., "Helix support structure for ultra-wide-band traveling-wave tubes," RCA Rev., Vol. 26, 106-117, 1965.        Google Scholar

9. Raju, R. S., S. N. Joshi, and B. N. Basu, "Modeling of practical multi-octave-band helical slow-wave structures of a traveling-wave tube for interaction impedance ," IEEE Trans. Electron Devices, Vol. ED-39, 996-1002, 1992.
doi:10.1109/16.127493        Google Scholar

10. Pierce, J. R., Traveling-Wave Tubes, D. Van Nostrand, 1950.

11. Sinha, A. K., R. Verma, R. K. Gupta, L. Kumar, S. N. Joshi, P. K. Jain, and B. N. Basu, "Simplified tape model of arbitrarily-loaded helical slow-wave structures of a traveling-wave tube," Proc. IEE, Vol. 139, 347-350, 1992.
doi:10.1049/ip-d.1992.0046        Google Scholar

12. Jain., P. K and B. N. Basu, "The inhomogeneous loading effects of practical dielectric supports for the helical-slow wave structure of a TWT ," IEEE Trans. Electron Devices, Vol. ED-34, 2643-2648, 1987.
doi:10.1109/T-ED.1987.23366        Google Scholar

13. Swift-Hook, D. T., "Dispersion curves for a helix in a glass tube," Proc. IEE, Vol. 105b (suppl.), 747-755, 1956.        Google Scholar

14. Jain, P. K., K. V. R. Murty, S. N. Joshi, and B. N. Basu, "Effects of the finite thickness of the helix wire on the characteristics of the helical slow-wave structure of a traveling-wave tube," IEEE Trans. Electron Devices, Vol. ED-34, 1209-1213, 1987.
doi:10.1109/T-ED.1987.23068        Google Scholar

15. Jain, P. K. and B. N. Basu, "The inhomogeneous dielectric loading effects of practical helix supports on the interaction impedance of the slow-wave structure of a TWT," IEEE Trans. Electron Devices, Vol. ED-39, 727-733, 1992.
doi:10.1109/16.123501        Google Scholar

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