A comb-shaped slow-wave structure of multi-banded electron beam channels

A strip electron, slow wave structure technology, applied in the direction of the circuit components of the transit time type electron tube, can solve the problems of lack of high power, low cost, etc., to improve the injection-wave interaction efficiency, increase the cross-sectional area, The effect of improving the working current

Active Publication Date: 2015-10-28
HEFEI UNIV OF TECH
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Problems solved by technology

In the current THz research field, the lack of high-power, low-cost and portable room temperature THz light source is the most important factor limiting the application of modern THz

Method used

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  • A comb-shaped slow-wave structure of multi-banded electron beam channels
  • A comb-shaped slow-wave structure of multi-banded electron beam channels
  • A comb-shaped slow-wave structure of multi-banded electron beam channels

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Embodiment Construction

[0026] As shown in Figure 1, a comb-shaped slow-wave structure of multi-band electron injection channels includes a rectangular waveguide wall 1 with both ends open, and double rows of comb-shaped teeth 2 are interlaced on the inner wall of the lower end surface of the rectangular waveguide wall 1 , insert n inserts 3 at equal intervals on the rectangular waveguide wall 1; establish the XYZ three-dimensional coordinates with the lower left corner of the front face of the rectangular waveguide wall 1 open at both ends as the origin. axis, the origin horizontally backward is the X axis, each tooth 2 is equally spaced and parallel to the YZ plane, and each insert 3 is parallel to the XZ plane.

[0027] There is a distance between the upper row of teeth and the lower row of teeth in the double-row comb-shaped teeth as a strip-shaped electron injection flight channel, the teeth 2 are rectangular, the inserts 3 are metal sheets, and the inner walls of the upper and lower end surfaces...

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Abstract

The invention discloses a comb-shaped slow-wave structure for a multi-band electron beam channel. The comb-shaped slow-wave structure for the multi-band electron beam channel comprises a rectangular wave guide wall of which the two ends are open; double rows of comb-shaped teeth are arranged on the inner walls of the upper end surface and the lower end surface of the rectangular wave guide wall in a staggered way; a plurality of insertion pieces are inserted into the rectangular wave guide wall at equal intervals; XYZ three-dimensional coordinates are established by taking the lower-left corner of the front end surface of the rectangular wave guide wall of which the two ends are open as an original point; the direction which is upwards vertical to the original point is the Z-axis; the direction which is leftwards horizontally is the Y-axis; the direction which is backwards horizontally is the X-axis; the teeth are at equal intervals and are parallel to the YZ plane; and the insertion pieces are parallel to the XZ plane. The comb-shaped slow-wave structure for the multi-band electron beam channel has a simple main structure, is easy to machine and is compatible with the modern micro electronic mechanical system (MEMS) technology; a transverse edge effect of the comb teeth can be ignored; the working frequency band is widened obviously; the beam-wave interaction efficiency is high; the working current is improved; the output power is increased; and the comb-shaped slow-wave structure is a novel slow-wave structure which extremely has application potential.

Description

technical field [0001] The invention relates to a comb-shaped slow-wave structure of multi-band electron injection channels, which belongs to the field of terahertz (THz) vacuum electronic devices. Background technique [0002] The generation of THz waves is a key link in the development of THz technology. According to the mechanism of terahertz radiation, its radiation sources can be divided into two categories: optical methods and electronic methods. In the current THz research field, the lack of high-power, low-cost, and portable room-temperature THz light source is the most important factor limiting the application of modern THz. [0003] The SP superradiation produced by periodic bunches has the characteristics of high radiation power and high spectral purity, and it is an effective way to improve the output power of THz source devices. Therefore, the acquisition method of periodic bunches has become a major research hotspot in the development of THz sourc...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01J23/24
Inventor 杨军李浩光李娇娇阮久福邓光晟尹治平吕国强蔡斐
Owner HEFEI UNIV OF TECH
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