SU472408A1 - Open coaxial resonator - Google Patents

Description

one

The invention relates to techniques for the millimeter and submillimeter wavelength ranges.

Known open coaxial cylindrical resonators containing a circular waveguide, external and internal mirrors, have a rigid structure, and rebuilding them in the frequency range causes certain difficulties. In particular, sometimes a dielectric or metal body is introduced into the working volume of the resonator to change the natural frequency. The frequency tuning thus obtained is not smooth and, moreover, the properties of the resonator deteriorate (the quality factor decreases, the field of the working type of oscillations is distorted, etc.). In some limits, it is possible to vary the frequency of the open coaxial resonator by varying the length of the external mirror. But this cannot be done, for example, in cases where the exterior mirror is not cylindrical. In addition, the tuning effect itself is small due to the weak dependence of the resonant frequency on the length of the mirror.

The purpose of the invention is to provide a smooth frequency tuning of the resonator.

This goal is achieved by the fact that its internal mirror is made in the form of a conical sleeve with longitudinal slits moving along a segment of said waveguide.

The drawing shows a diagram of the resonator.

Open coaxial resonator consists

from a concave spheroidal mirror 1, and in

As the second mirror, the surface of the conical sleeve 2 is used. In the body of the sleeve, longitudinal slits 3 are cut. The conical sleeve moves along the surface of the exciting circular waveguide 4 by means of the movement mechanism 5, for parts

the surface of the sleeve 2 milled thread 6.

Control of the amount of movement of the sleeve

2 relative to mirror 1 is performed with

using the scale 7. The resonator is turned on

waveguide using flanges 8.

The principle of the proposed device is as follows.

Electromagnetic wave propagating along a circular waveguide 4 through a system of slits 9 and 3 located in waveguide 4

and the conical sleeve 2, respectively, falls into the volume between mirrors 1 and 2 and excites it. The working volume occupied by the electromagnetic field is limited to caustic surfaces (they are shown in the drawing by dashed lines). The output of energy from the open coaxial resonator is made through the system of holes 10 in the outer mirror 1. At the same time, the resonator is included in the waveguide path in the mode "On Pass." AT

if there are no holes 10 in the mirror 1

3

the resonator is included in the path as an irregularity.

The energies of the parasitic oscillations are either radiated from the resonator to the external space, or are delayed by the absorbing solder P. By moving the conical sleeve 2 relative to mirror 1, we can smoothly change the natural frequency of the open coaxial resonator within wide limits, as this changes the distance between the mirrors 1 and 2,

Subject invention

An open coaxial resonator containing a slit of an exciting circular waveguide with a slit, an external concave and an internal mirror, characterized in that, in order to ensure a smooth frequency tuning, the internal mirror is made in the form of a conical sleeve with slits slid along a segment of said waveguide.