Home > Research > Publications & Outputs > Numerical simulation of high efficiency cylindr...
View graph of relations

Numerical simulation of high efficiency cylindrical beam klystrons

Research output: Contribution to conference - Without ISBN/ISSN Conference paperpeer-review

Published

Standard

Numerical simulation of high efficiency cylindrical beam klystrons. / Constable, D. A.; Burt, Graeme Campbell; Lingwood, Christopher James.
2016. Paper presented at National Vacuum Electronics Conference (NVEC) 2016, Lancaster, United Kingdom.

Research output: Contribution to conference - Without ISBN/ISSN Conference paperpeer-review

Harvard

Constable, DA, Burt, GC & Lingwood, CJ 2016, 'Numerical simulation of high efficiency cylindrical beam klystrons', Paper presented at National Vacuum Electronics Conference (NVEC) 2016, Lancaster, United Kingdom, 18/07/16 - 18/07/16.

APA

Constable, D. A., Burt, G. C., & Lingwood, C. J. (2016). Numerical simulation of high efficiency cylindrical beam klystrons. Paper presented at National Vacuum Electronics Conference (NVEC) 2016, Lancaster, United Kingdom.

Vancouver

Constable DA, Burt GC, Lingwood CJ. Numerical simulation of high efficiency cylindrical beam klystrons. 2016. Paper presented at National Vacuum Electronics Conference (NVEC) 2016, Lancaster, United Kingdom.

Author

Constable, D. A. ; Burt, Graeme Campbell ; Lingwood, Christopher James. / Numerical simulation of high efficiency cylindrical beam klystrons. Paper presented at National Vacuum Electronics Conference (NVEC) 2016, Lancaster, United Kingdom.1 p.

Bibtex

@conference{1e39ad9863e54625b0ad7ae83d28b793,
title = "Numerical simulation of high efficiency cylindrical beam klystrons",
abstract = "The High Efficiency International Klystron Activity (HEIKA) collaboration seeks to improve the efficiency of CW klystrons, with an eye to their use as RF sources for future particle accelerators.  Through investigating novel bunching techniques, such as the core oscillation method (COM), and bunching-alignment-collection (BAC) method, klystrons with predicted efficiencies approaching 90% have been demonstrated across numerical codes including AJDISK, MAGIC2-D, KlypWin, TESLA and Klys2D.  Recent numerical results of such devices featuring solid, cylindrical electron beams, will be presented.",
author = "Constable, {D. A.} and Burt, {Graeme Campbell} and Lingwood, {Christopher James}",
year = "2016",
month = jul,
day = "18",
language = "English",
note = "National Vacuum Electronics Conference (NVEC) 2016, NVEC 2016 ; Conference date: 18-07-2016 Through 18-07-2016",

}

RIS

TY - CONF

T1 - Numerical simulation of high efficiency cylindrical beam klystrons

AU - Constable, D. A.

AU - Burt, Graeme Campbell

AU - Lingwood, Christopher James

PY - 2016/7/18

Y1 - 2016/7/18

N2 - The High Efficiency International Klystron Activity (HEIKA) collaboration seeks to improve the efficiency of CW klystrons, with an eye to their use as RF sources for future particle accelerators.  Through investigating novel bunching techniques, such as the core oscillation method (COM), and bunching-alignment-collection (BAC) method, klystrons with predicted efficiencies approaching 90% have been demonstrated across numerical codes including AJDISK, MAGIC2-D, KlypWin, TESLA and Klys2D.  Recent numerical results of such devices featuring solid, cylindrical electron beams, will be presented.

AB - The High Efficiency International Klystron Activity (HEIKA) collaboration seeks to improve the efficiency of CW klystrons, with an eye to their use as RF sources for future particle accelerators.  Through investigating novel bunching techniques, such as the core oscillation method (COM), and bunching-alignment-collection (BAC) method, klystrons with predicted efficiencies approaching 90% have been demonstrated across numerical codes including AJDISK, MAGIC2-D, KlypWin, TESLA and Klys2D.  Recent numerical results of such devices featuring solid, cylindrical electron beams, will be presented.

M3 - Conference paper

T2 - National Vacuum Electronics Conference (NVEC) 2016

Y2 - 18 July 2016 through 18 July 2016

ER -