CN107275173B - Confocal waveguide ceramics open annular column microwave absorbing device - Google Patents

Abstract

The invention discloses a kind of confocal waveguide ceramics open annular column microwave absorbing devices, belong to microwave, millimeter wave and THz devices technical field.The device include the confocal waveguide mirror surface of opening of setting symmetrical above and below, its both ends extended segment be respectively input/output terminal and the open annular column for being symmetrically disposed on its two sides.The present invention absorbs the energy given off from high frequency interacting formations using ceramic open annular column, and the microwave that diffraction goes out can multiple roundtrip and absorption in circular column cavity, backward wave oscillation can more preferably be inhibited, it can also prevent hot-spot, it largely solves the heat dissipation problem of high frequency interacting system, improves the stability of confocal waveguide gyrotron traveling wave tube.In addition, since open annular column has bigger inner surface area, the surface area for absorbing radiated electromagnetic wave is bigger in same space volume, and it is higher to microwave absorption efficiency, improve confocal waveguide gyrotron traveling wave tube mean power capacity and stability.

Description

Confocal waveguide ceramics open annular column microwave absorbing device

Technical field

The invention belongs to microwave, millimeter wave and THz devices technical field, specifically a kind of confocal waveguide medium Ceramic ring microwave absorbing device can apply confocal waveguide gyro amplifier part and confocal wave in millimeter wave, terahertz wave band Lead back to rotation oscillating device.

Background technique

Gyrotron traveling wave tube is a kind of electrovacuum amplifier based on electronic cyclotron maser effect, in millimeter wave or even Terahertz Frequency range can be realized high-power, broadband, the output of efficient electromagnetic wave power, it is in high-resolution mm-wave imaging, millimeter Wave confrontation, electronic warfare and microwave telecommunication system etc. are with important application prospects.Currently, gyrotron traveling wave tube is still in development Stage is generally adopted by the cross section for increasing cavity to increase the output power of gyrotron traveling wave tube, that is, uses higher order mode Work, but mode competition is thus introduced, causing can not steady operation.Due to the puzzlement of mode competition problem, higher order mode It is not high with high-frequency gyrotron traveling wave tube overall development level, so being widely used not yet, in order to control spurious mode Oscillation, guarantees the work of single mode efficient stable, and confocal waveguiding structure comes into being.

Confocal waveguiding structure is a kind of novel interacting formations proposed by america's MIT, it is made of two pieces of cylindrical mirrors, Wherein the geometric center of waveguide and the focus of cylindrical mirror are overlapped, and it is a kind of sideways open structure, therefore confocal waveguide junction There are diffraction on the both sides of structure, due to the presence of diffraction loss, so that confocal waveguide is provided with natural attenuation characteristic, and this decline Subtract and different modes is different, this characteristic just can be used for the inhibition to backward wave interaction competitive mode, i.e., confocal The model selection characteristic that waveguiding structure itself has, efficiently solves traditional Cyclotron and spends phenomenon together due to size and be difficult to work In the difficulty of W-waveband and higher Terahertz frequency range.

MIT has carried out the confocal waveguide gyrotron traveling wave tube experimental study of 140GHz first, which uses two-stage and concentrate decaying The high frequency interacting formations of truncation cut off spurious mode backward wave oscillation circuit, heat survey the result shows that, the pipe is in center frequency points Place has obtained the stable output of 820W and the three dB bandwidth of 1.5GHz (is detailed in " A Novel Wideband 140GHz Gyrotron Amplifier ", author: Colin D.Joye et al., 2008).Domestic China Engineering Physics Research Institute also works to 140GHz In HE₀₆The confocal waveguide gyrotron traveling wave tube of mould is studied and has been designed, and inhales wave by coating on outer sleeve lining in design Material coating (as shown in Fig. 2) come absorb diffraction go out electromagnetic wave, prevent spurious mode to be reflected back interacting formations, but its is right The electro-magnetic wave absorption that diffraction goes out is incomplete, and delivery efficiency is not high.

Summary of the invention

Aiming at the problem that in the presence of background technique, the invention proposes a kind of confocal waveguide ceramics open annular column microwaves Absorption plant, which absorbs the energy given off from high frequency interacting formations using ceramic open annular column, and spreads out The microwave of injection can multiple roundtrip and absorption in circular column cavity, compared to rectangle outer sleeve coated media inhale wave material Material, the structure can more preferably inhibit backward wave oscillation, can also prevent hot-spot, largely solve high frequency interacting system Heat dissipation problem, improve the stability of confocal waveguide gyrotron traveling wave tube.In addition, in same space volume, due to split ring Shape column has bigger inner surface area, and the surface area for absorbing radiated electromagnetic wave is bigger, higher to microwave absorption efficiency, improves Confocal waveguide gyrotron traveling wave tube mean power capacity and stability.

The present invention takes technical solution below to realize:

A kind of confocal waveguide ceramics open annular column microwave absorbing device, the confocal waveguide of opening including setting symmetrical above and below Mirror surface, its both ends extended segment be respectively input/output terminal and the open annular column for being symmetrically disposed on its two sides, feature exists In: the central axes of the open annular column are located at except confocal waveguide mirror surface interaction region；The opening width of open annular column is big Opening width in confocal waveguide mirror surface two sides, longitudinal length are greater than or equal to input terminal, confocal waveguide mirror surface and output end The sum of longitudinal length.

Further, the material of the open annular column is high loss ceramics, such as the ceramics that SIC, PN are heat-resist.

Further, when the open annular column is open circles annulated column, microwave absorption effect is preferable.

Out of confocal wave-guide cavity wave diffraction go out electromagnetic wave can multiple roundtrip and absorption in open annular column cavity, Absorption efficiency is high, effectively prevents the microwave secondary reflection that diffraction goes out and returns in high frequency interacting formations, improves pipe and stablizes Property.In addition, open annular rod structure has bigger microwave absorption area compared to rectangular configuration, and to the multiple reflections of electromagnetic wave Absorbing can be to avoid ceramic ring hot-spot, thus has higher mean power capacity.

Detailed description of the invention

Attached drawing 1 is confocal waveguide ceramics open annular column microwave absorbing device tomograph provided by the invention.

Attached drawing 2 is the rectangle outer sleeve inner surface coated media absorbing material cross-sectional structure figure that background technique provides.

Attached drawing 3 is confocal waveguide ceramics open annular column microwave absorbing device cross-sectional structure figure provided by the invention.

Drawing reference numeral explanation: 1 indicates open confocal waveguide mirror surface；2 indicate ceramic open annular column；3 indicate input terminal；4 Indicate output end；5 indicate confocal waveguide mirror surface；6 indicate absorbing material coating；7 indicate confocal waveguide metal outer sleeve.

Specific embodiment

Below in conjunction with the HE of W-waveband₀₄The confocal waveguide gyrotron traveling wave tube high frequency interacting system design example of mould and attached drawing The present invention is further elaborated:

The confocal waveguide gyrotron traveling wave tube microwave absorbing device main structure parameters of table 1

	Input terminal	Open confocal waveguide mirror surface	Ceramic open annular column	Output end
					Radius of curvature (mm)	7	7	5.5	7
Transverse width (mm)	6	6	—	6
					Longitudinal length (mm)	15	143	173	15
Both-side opening spacing (mm)	5	5	5.5	5
					Thickness	—	—	1.5	—

Attached drawing 1 is confocal waveguide ceramics open annular column microwave absorbing device tomograph, in the confocal waveguide mirror of opening Face, that is, high frequency interacting formations two sides are arranged ceramic open annular column (2), the longitudinal length of ceramic open annular column be greater than or Equal to the sum of input terminal (3), confocal waveguide mirror surface and longitudinal length of output end (4), the electromagnetic wave that can go out to diffraction is multiple Reflection-absorption prevents secondary counter to be emitted back towards high frequency interacting formations, improves travelling-wave tubes job stability.

Attached drawing 2 is the rectangle outer sleeve inner surface coated media absorbing material cross-sectional structure figure that background technique provides, it Using the metal-coating cylinder of rectangle, for the electromagnetic wave of perpendicular media surface incidence after absorbing material absorbs, what is do not fully absorbed is micro- Wave can be directly reflected into high frequency interaction region, and the schematic diagram of microwave reflection is given in figure.Attached drawing 3 is provided by the invention total The energy of burnt waveguide ceramics open annular column microwave absorbing device cross-sectional structure figure, diffraction can be in ceramic open annular rod structure Middle multiple reflections are repeatedly absorbed, and avoid reflection of electromagnetic wave returning high frequency interacting system, also avoid hot-spot, and one Determine the heat dissipation problem for solving high frequency interacting system in degree.The schematic diagram of microwave reflection is given in figure, it is only few Energy can be reflected back interaction region, and due to the cambered design of ceramic open annular column, have bigger absorption area, improve Travelling-wave tubes mean power capacity and stability.

Claims (3)

1. a kind of confocal waveguide ceramics open annular column microwave absorbing device, the confocal waveguide mirror of opening including setting symmetrical above and below Face, its both ends extended segment be respectively input/output terminal and be symmetrically disposed on confocal waveguide mirror surface and input/output terminal two sides Open annular column, it is characterised in that: the central axes of two open annular columns are respectively positioned on confocal waveguide mirror surface interaction region Except；The opening width of open annular column is greater than the opening width of confocal waveguide mirror surface two sides, the longitudinal length of open annular column More than or equal to the sum of input terminal, confocal waveguide mirror surface and longitudinal length of output end.

2. a kind of confocal waveguide ceramics open annular column microwave absorbing device as described in claim 1, it is characterised in that: described The material of open annular column is high loss ceramics.

3. a kind of confocal waveguide ceramics open annular column microwave absorbing device as described in claim 1, it is characterised in that: described Open annular column is open circles annulated column.