Novel THz radiation source based on compact linear accelerator.

Marie Curie Research Fellow: Konstantin Lekomtsev

Research objectives:

  • to investigate Cherenkov and Smith - Purcell mechanisms for THz radiation generation using EM simulation tools and propose an efficient target configuration and observation geometry;

  • to build a radiation source that provides high peak power levels and based on a compact linear accelerator technology with a fs-duration beam;

  • to evaluate possible applications of the investigated radiation mechanisms for beam position and bunch length diagnostics;

  • to provide knowledge exchange between partner organisations and other interested parties via seminars, satellite and progress meetings, conferences and workshops;

  • to improve public awareness about the ongoing research via outreach activities;

  • to develop project management skills.

Generation of THz radiation from dielectric mm-scale capillaries with reflectors.

Demonstrated that coherent Smith Purcell Radiation, with intensity comparable to that of coherent Transition Radiation, can be generated as a result of introducing a corrugation in a mm-scale dielectric capillary and can be emitted through an outer dielectric boundary not covered by a reflector.

Detailed information on

Brief description of experiment

Drive-Witness acceleration scheme based on corrugated dielectric mm-scale capillary.

An experimental scheme based on a mm-scale corrugated capillary proposed as an accelerator/decelerator with an adjustable wakefield pattern, and was used to study beam dynamics at different transverse beam off-sets.

Detailed information on

Brief description of drive-witness experiment


Related Publications

Topic attachments
I Attachment History Action Size Date Who CommentSorted ascending
PNGpng Beam.png r1 manage 559.7 K 25 May 2017 - 12:02 KonstantinLekomtsev1  
PNGpng Corrug_manx3500.png r1 manage 475.4 K 25 May 2017 - 12:03 KonstantinLekomtsev1  
JPEGjpg Installed_target.jpg r1 manage 794.6 K 24 May 2017 - 13:24 KonstantinLekomtsev1  
PNGpng LUCX_scheme.png r1 manage 71.9 K 24 May 2017 - 14:42 KonstantinLekomtsev1  
PNGpng LUCX_scheme_drive-witness.png r1 manage 89.1 K 25 May 2017 - 12:02 KonstantinLekomtsev1  
PNGpng M1_scan.png r2 r1 manage 55.3 K 25 May 2017 - 13:50 KonstantinLekomtsev1  
PNGpng PIC_experiment_crosscheck.png r1 manage 68.6 K 24 May 2017 - 15:10 KonstantinLekomtsev1  
PNGpng TR_crosscheck.png r1 manage 76.4 K 24 May 2017 - 15:10 KonstantinLekomtsev1  
PNGpng capillary_design.png r1 manage 139.1 K 25 May 2017 - 12:02 KonstantinLekomtsev1  
JPEGjpg drive_witness_targets.jpg r1 manage 1301.3 K 25 May 2017 - 12:17 KonstantinLekomtsev1  
PNGpng experimental_scheme_part1.png r1 manage 170.4 K 24 May 2017 - 13:54 KonstantinLekomtsev1  
PNGpng experimental_scheme_part2.png r1 manage 219.0 K 24 May 2017 - 14:00 KonstantinLekomtsev1  
Edit | Attach | Watch | Print version | History: r12 | r10 < r9 < r8 < r7 | Backlinks | Raw View | Raw edit | More topic actions...

Physics WebpagesRHUL WebpagesCampus Connect • Royal Holloway, University of London, Egham, Surrey TW20 0EX; Tel/Fax +44 (0)1784 434455/437520

Topic revision: r8 - 05 Jul 2017 - KonstantinLekomtsev1

  • Edit
  • Attach
This site is powered by the TWiki collaboration platform Powered by PerlCopyright © 2008-2023 by the contributing authors. All material on this collaboration platform is the property of the contributing authors.
Ideas, requests, problems regarding RHUL Physics Department TWiki? Send feedback