Abstract
We consider a semi-infinite open-ended cylindrical waveguide with uniform dielectric filling placed into collinear infinite vacuum waveguide with larger radius. Electromagnetic field produced by a point charge or Gaussian bunch moving along structure's axis from the dielectric waveguide into the vacuum one is investigated. We utilize the modified residue-calculus technique and obtain rigorous analytical solution of the problem by determining coefficients of mode excitation in each subarea of the structure. Numerical simulations in CST Particle Studio are also performed and an excellent agreement between analytical and simulated results is shown. The main attention is paid to analysis of Cherenkov radiation generated in the inner dielectric waveguide and penetrated into vacuum regions of the outer waveguide. The discussed structure can be used for generation of Terahertz radiation by modulated bunches (bunch trains) by means of high-order Cherenkov modes. In this case, numerical simulations becomes difficult while the developed analytical technique allows for efficient calculation of the radiation characteristics.
Highlights
In recent years, an essential interest is observed in the area of contemporary sources of Terahertz (THz) radiation based on beam-driven waveguide structures loaded with dielectric
Cherenkov radiation should be generated by wellcontrolled electron bunch passed through a waveguide structure with dielectric filling and open aperture [6,7]
We present numerical results obtained via rigorous formulas of the previous section and results of direct numerical simulation in CST PS ® package
Summary
An essential interest is observed in the area of contemporary sources of Terahertz (THz) radiation based on beam-driven waveguide structures loaded with dielectric. In a series of recent papers, we started rigorous investigation of the aforementioned problem on EM field in a circular open-ended waveguide with orthogonal cut and dielectric filling excited by the field of a moving charged particle bunch [21,22,23,24,25]. In these publications, the semiinfinite waveguide was placed (embedded) into collinear infinite vacuum waveguide with larger radius.
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