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. The main attention is paid to analysis of penetration of Cherenkov radiation into vacuum regions of the outer waveguide. Numerical simulations in cst Particle Studio are also performed (for long enough bunch exciting the first Cherenkov m...
A new method for calculating the Cherenkov wakefield acting on a point charged particle passing thro...
Theoretical investigations, simulation, performed and planned experiments on basing and proving of t...
An electron beam is used to excite a unique electromagnetic response from a complementary split ring...
We analyze the electromagnetic field of a charged particle moving uniformly in a circular waveguide ...
We analyze the electromagnetic field of a charged particle that uniformly moves in a circular wavegu...
The electromagnetic field of a bunch moving through a vacuum gap located in a dielectric loaded wave...
We consider the electromagnetic field of a point charged particle moving along the axis of a cylindr...
The radiation from a charged particle uniformly moving along the axis of cylindrical waveguide fille...
The Cherenkov excitation of terahertz (THz) radiation by the interaction of an electron beam with th...
The field of a charge moving along the axis of a cylindrical wave guide, which is filled with a movi...
The effect of dielectric boundaries on the Cherenkov radiation (CR) produced when a fast point charg...
An original method to determine the charged particle energy is developed. This method uses the depen...
The field formation zone (time) is investigated when a charged bunch is crossing a perfectly conduct...
Cherenkov radiation generated by a relativistic electron bunch in a rectangular dielectric-loaded wa...
This paper reports the wakefield effects driven by a high-intensity relativistic electron bunch in a...
A new method for calculating the Cherenkov wakefield acting on a point charged particle passing thro...
Theoretical investigations, simulation, performed and planned experiments on basing and proving of t...
An electron beam is used to excite a unique electromagnetic response from a complementary split ring...
We analyze the electromagnetic field of a charged particle moving uniformly in a circular waveguide ...
We analyze the electromagnetic field of a charged particle that uniformly moves in a circular wavegu...
The electromagnetic field of a bunch moving through a vacuum gap located in a dielectric loaded wave...
We consider the electromagnetic field of a point charged particle moving along the axis of a cylindr...
The radiation from a charged particle uniformly moving along the axis of cylindrical waveguide fille...
The Cherenkov excitation of terahertz (THz) radiation by the interaction of an electron beam with th...
The field of a charge moving along the axis of a cylindrical wave guide, which is filled with a movi...
The effect of dielectric boundaries on the Cherenkov radiation (CR) produced when a fast point charg...
An original method to determine the charged particle energy is developed. This method uses the depen...
The field formation zone (time) is investigated when a charged bunch is crossing a perfectly conduct...
Cherenkov radiation generated by a relativistic electron bunch in a rectangular dielectric-loaded wa...
This paper reports the wakefield effects driven by a high-intensity relativistic electron bunch in a...
A new method for calculating the Cherenkov wakefield acting on a point charged particle passing thro...
Theoretical investigations, simulation, performed and planned experiments on basing and proving of t...
An electron beam is used to excite a unique electromagnetic response from a complementary split ring...