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Particle Energy Determination Technique Based on Waveguide Mode Frequency Measurement. / Tyukhtin, A.V.; Doil’nitsina, E.G.; Kanareykin, A.

Proceedings of the 1st International Particle Accelerator Conference (IPAC10). 2010. p. 1071-1073 MOPE044.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Harvard

Tyukhtin, AV, Doil’nitsina, EG & Kanareykin, A 2010, Particle Energy Determination Technique Based on Waveguide Mode Frequency Measurement. in Proceedings of the 1st International Particle Accelerator Conference (IPAC10)., MOPE044, pp. 1071-1073, 1st International Particle Accelerator Conference, Kyoto, Japan, 23/05/10. <http://www.jacow.org>

APA

Tyukhtin, A. V., Doil’nitsina, E. G., & Kanareykin, A. (2010). Particle Energy Determination Technique Based on Waveguide Mode Frequency Measurement. In Proceedings of the 1st International Particle Accelerator Conference (IPAC10) (pp. 1071-1073). [MOPE044] http://www.jacow.org

Vancouver

Tyukhtin AV, Doil’nitsina EG, Kanareykin A. Particle Energy Determination Technique Based on Waveguide Mode Frequency Measurement. In Proceedings of the 1st International Particle Accelerator Conference (IPAC10). 2010. p. 1071-1073. MOPE044

Author

Tyukhtin, A.V. ; Doil’nitsina, E.G. ; Kanareykin, A. / Particle Energy Determination Technique Based on Waveguide Mode Frequency Measurement. Proceedings of the 1st International Particle Accelerator Conference (IPAC10). 2010. pp. 1071-1073

BibTeX

@inproceedings{f6e32c5e2b7b4ae0b71e18d2a380a2d5,
title = "Particle Energy Determination Technique Based on Waveguide Mode Frequency Measurement",
abstract = "We con­sid­er the par­ti­cles en­er­gy mea­sure­ment method of­fered in our pa­pers (foot­notes). It is based on mea­sure­ment of the modes fre­quen­cies in waveg­uide load­ed with cer­tain ma­te­ri­al. For this method, the modes fre­quen­cies must de­pend on the par­ti­cles en­er­gy strong enough. Here we dis­cuss the prob­lem of se­lec­tion of ma­te­ri­als for this tech­nique. It is shown that high pre­ci­sion of en­er­gy mea­sure­ment can be reached by use of the sys­tem of spe­cif­ic par­al­lel con­duc­tors. The ap­prox­i­mate an­a­lyt­i­cal ap­proach for ob­tain­ing ef­fec­tive per­mit­tiv­i­ty of such struc­ture is de­vel­oped. It is shown that se­lec­tion of pa­ram­e­ters of the struc­ture al­lows rul­ing an ef­fec­tive per­mit­tiv­i­ty char­ac­ter­ized by both fre­quen­cy dis­per­sion and spa­tial one. The struc­ture is sim­ple enough for pro­duc­tion. It al­lows mea­sur­ing the par­ti­cles en­er­gy for dif­fer­ent pre­de­ter­mined ranges. The other ways of re­al­iza­tion of the method are dis­cussed as well. One of them con­sists in use of thin layer of or­di­nary di­elec­tric. Se­lec­tion of the layer thick­ness and di­elec­tric con­stant al­lows ob­tain­ing strong enough de­pen­dence of fre­quen­cy on Lorentz-fac­tor in the rel­a­tive­ly wide range.",
author = "A.V. Tyukhtin and E.G. Doil{\textquoteright}nitsina and A. Kanareykin",
year = "2010",
language = "English",
isbn = "9789290833529",
pages = "1071--1073",
booktitle = "Proceedings of the 1st International Particle Accelerator Conference (IPAC10)",
note = "1st International Particle Accelerator Conference, IPAC{\textquoteright}10 ; Conference date: 23-05-2010 Through 28-05-2010",

}

RIS

TY - GEN

T1 - Particle Energy Determination Technique Based on Waveguide Mode Frequency Measurement

AU - Tyukhtin, A.V.

AU - Doil’nitsina, E.G.

AU - Kanareykin, A.

PY - 2010

Y1 - 2010

N2 - We con­sid­er the par­ti­cles en­er­gy mea­sure­ment method of­fered in our pa­pers (foot­notes). It is based on mea­sure­ment of the modes fre­quen­cies in waveg­uide load­ed with cer­tain ma­te­ri­al. For this method, the modes fre­quen­cies must de­pend on the par­ti­cles en­er­gy strong enough. Here we dis­cuss the prob­lem of se­lec­tion of ma­te­ri­als for this tech­nique. It is shown that high pre­ci­sion of en­er­gy mea­sure­ment can be reached by use of the sys­tem of spe­cif­ic par­al­lel con­duc­tors. The ap­prox­i­mate an­a­lyt­i­cal ap­proach for ob­tain­ing ef­fec­tive per­mit­tiv­i­ty of such struc­ture is de­vel­oped. It is shown that se­lec­tion of pa­ram­e­ters of the struc­ture al­lows rul­ing an ef­fec­tive per­mit­tiv­i­ty char­ac­ter­ized by both fre­quen­cy dis­per­sion and spa­tial one. The struc­ture is sim­ple enough for pro­duc­tion. It al­lows mea­sur­ing the par­ti­cles en­er­gy for dif­fer­ent pre­de­ter­mined ranges. The other ways of re­al­iza­tion of the method are dis­cussed as well. One of them con­sists in use of thin layer of or­di­nary di­elec­tric. Se­lec­tion of the layer thick­ness and di­elec­tric con­stant al­lows ob­tain­ing strong enough de­pen­dence of fre­quen­cy on Lorentz-fac­tor in the rel­a­tive­ly wide range.

AB - We con­sid­er the par­ti­cles en­er­gy mea­sure­ment method of­fered in our pa­pers (foot­notes). It is based on mea­sure­ment of the modes fre­quen­cies in waveg­uide load­ed with cer­tain ma­te­ri­al. For this method, the modes fre­quen­cies must de­pend on the par­ti­cles en­er­gy strong enough. Here we dis­cuss the prob­lem of se­lec­tion of ma­te­ri­als for this tech­nique. It is shown that high pre­ci­sion of en­er­gy mea­sure­ment can be reached by use of the sys­tem of spe­cif­ic par­al­lel con­duc­tors. The ap­prox­i­mate an­a­lyt­i­cal ap­proach for ob­tain­ing ef­fec­tive per­mit­tiv­i­ty of such struc­ture is de­vel­oped. It is shown that se­lec­tion of pa­ram­e­ters of the struc­ture al­lows rul­ing an ef­fec­tive per­mit­tiv­i­ty char­ac­ter­ized by both fre­quen­cy dis­per­sion and spa­tial one. The struc­ture is sim­ple enough for pro­duc­tion. It al­lows mea­sur­ing the par­ti­cles en­er­gy for dif­fer­ent pre­de­ter­mined ranges. The other ways of re­al­iza­tion of the method are dis­cussed as well. One of them con­sists in use of thin layer of or­di­nary di­elec­tric. Se­lec­tion of the layer thick­ness and di­elec­tric con­stant al­lows ob­tain­ing strong enough de­pen­dence of fre­quen­cy on Lorentz-fac­tor in the rel­a­tive­ly wide range.

UR - https://accelconf.web.cern.ch/IPAC10/papers/mope044.pdf

M3 - Conference contribution

SN - 9789290833529

SP - 1071

EP - 1073

BT - Proceedings of the 1st International Particle Accelerator Conference (IPAC10)

T2 - 1st International Particle Accelerator Conference

Y2 - 23 May 2010 through 28 May 2010

ER -

ID: 4450547