We develop a new approach to the calculation of the synchrotron radiation in a toroidal vacuum chamber. Using a small parameter ϵ=sqrt[a/R], where a is the characteristic size of the cross section of the toroid and R is the bending radius, we simplify Maxwell’s equations assuming that the characteristic frequency of the modes ω∼c/aϵ and neglect terms of higher order in ϵ. For a rectangular cross section of the waveguide, we find an analytical solution of the equations and analyze their asymptotics at very high frequency. We then obtain an equation which gives radiation into each synchronous mode. We demonstrate the flexibility of the new method by calculating the frequencies and the loss factors for the lowest modes in square and round wave...
Are calculated the radiation characteristics of two types of primary-feed waveguides of millimeter w...
We study coherent synchrotron radiation (CSR) in a perfectly conducting vacuum chamber of rectangula...
The electromagnetic field of a bunch moving through a vacuum gap located in a dielectric loaded wave...
We develop a new approach to the calculation of the synchrotron radiation in a toroidal vacuum chamb...
A new technique for the simulation of coherent synchrotron radiation (CSR) and space-charge fields f...
The radiation of the charged particles bunch which is moving along the axis of toroidal cavity cross...
We develop a new method to simulate coherent synchrotron radiation numerically. It is based on the m...
We study the impedance due to coherent synchrotron radiation (CSR) generated by a short bunch of cha...
The ability to preserve the quality of relativistic electron beams through trans-port bend elements ...
In applying mode expansion to solve the CSR impedance for a section of toroidal vacuum chamber with ...
Three problems have been considered in this paper: the development of Maxwells equations strict solu...
We study the fields produced by a beam circulating in a smooth toroidal chamber with walls of finite...
We consider a semi-infinite open-ended cylindrical waveguide with uniform dielectric filling placed ...
We predict the scattering loss in rectangular high index-contrast waveguides, using a new variation ...
A hstract In this work we have developed the successive aproximation method (SAM) to determine elect...
Are calculated the radiation characteristics of two types of primary-feed waveguides of millimeter w...
We study coherent synchrotron radiation (CSR) in a perfectly conducting vacuum chamber of rectangula...
The electromagnetic field of a bunch moving through a vacuum gap located in a dielectric loaded wave...
We develop a new approach to the calculation of the synchrotron radiation in a toroidal vacuum chamb...
A new technique for the simulation of coherent synchrotron radiation (CSR) and space-charge fields f...
The radiation of the charged particles bunch which is moving along the axis of toroidal cavity cross...
We develop a new method to simulate coherent synchrotron radiation numerically. It is based on the m...
We study the impedance due to coherent synchrotron radiation (CSR) generated by a short bunch of cha...
The ability to preserve the quality of relativistic electron beams through trans-port bend elements ...
In applying mode expansion to solve the CSR impedance for a section of toroidal vacuum chamber with ...
Three problems have been considered in this paper: the development of Maxwells equations strict solu...
We study the fields produced by a beam circulating in a smooth toroidal chamber with walls of finite...
We consider a semi-infinite open-ended cylindrical waveguide with uniform dielectric filling placed ...
We predict the scattering loss in rectangular high index-contrast waveguides, using a new variation ...
A hstract In this work we have developed the successive aproximation method (SAM) to determine elect...
Are calculated the radiation characteristics of two types of primary-feed waveguides of millimeter w...
We study coherent synchrotron radiation (CSR) in a perfectly conducting vacuum chamber of rectangula...
The electromagnetic field of a bunch moving through a vacuum gap located in a dielectric loaded wave...