Claims
- 1. A slow wave deflection device for deflecting an electron beam, comprising:
- a serpentine conductive element having ends;
- a channel structure having a serpentine groove therein, the groove being disposed in said channel structure such that said conductive element fits within the groove without touching the groove at a bottom and further without touching at either of a pair of opposing sides of the groove;
- support means for supporting said conductive element at the ends of said conductive element such that said conductive element is supported within the groove without touching the groove at either the bottom thereof and further without touching at the sides thereof; and
- electrical feedthrough means electrically connected to said conductive element at the ends of said conductive element for passing an electrical signal therethrough; wherein
- said channel structure is comprised of a combination of a ground plane block and a trough plate, the trough plate being a generally flat plate with a serpentine channel disposed therethrough such that when the trough plate is positioned on the ground plane block the serpentine groove is defined with the bottom of the groove being a portion of the ground plane block and the sides of the groove being defined by the channel in the trough plate.
- 2. The slow wave deflection device of claim 1, wherein:
- said support means and said electrical feedthrough means are a coaxial feedthrough device having an insulator and an inner conductor, the insulator being inserted within a feedthrough hole in said channel structure and the inner conductor being affixed to the ends of said serpentine conductive element such that said serpentine conductive element is supported by said feedthrough device and further wherein electrical signals are provided to said serpentine conductive element through the inner conductor of the coaxial feedthrough device.
- 3. The slow wave deflection device of claim 1, and further including:
- a beam interaction trough, the beam interaction trough being an elongated recession in said channel structure which intersects the groove at a plurality of beam interaction regions, wherein when the electron beam travels along the beam interaction trough said electron beam crosses said serpentine conductive element at the beam interaction regions.
- 4. The slow wave deflection device of claim 3, and further including:
- a plurality of ground plates, the ground plates covering the serpentine groove in said channel structure except that the beam interaction trough is not covered thereby.
- 5. The slow wave deflection device of claim 3, wherein:
- the beam interaction trough is sufficiently deep such that a bottom of the beam interaction trough coincides in height with a top of the serpentine conductive element.
- 6. An electron beam deflection means for a traveling wave cathode ray tube, comprising:
- a rigid serpentine conductor, said serpentine conductor being positioned such that said serpentine conductor intersects a path of the electron beam at a plurality of beam interaction regions;
- a solid channel block having a groove therein with said serpentine conductor fitted within the groove such that said serpentine conductor is enclosed on at least three sides by the groove of the solid channel block; and
- support means connected to the ends of said serpentine conductor for supporting said serpentine conductor within the groove; wherein
- the groove in said channel block is substantially covered by at least one ground plate.
- 7. The electron beam deflection means of claim 6, wherein:
- the channel block has a surface; and
- said channel block has an electron beam trough disposed therein for passing the electron beam therethrough, the electron beam trough being an elongated recession in the surface of the channel block which intersects the groove in said channel block at each of the beam interaction regions.
- 8. The electron beam deflection means of claim 6, wherein:
- an electrical connection is made to said serpentine conductor through said support means.
- 9. A serpentine slow wave deflection structure for deflecting an electron beam in a traveling wave cathode ray tube, comprising:
- a ground block with a serpentine groove formed therein, the serpentine groove being an elongated serpentine recess in a surface of the ground block; and
- a signal conductor, said signal conductor being disposed so as to fit within the serpentine groove such that said signal conductor generally follows the path of the serpentine groove, said signal conductor further being sufficiently small in cross section such that said signal conductor fits within the serpentine groove without touching the ground block;
- a beam path, the beam path being a generally straight elongated recession in said ground block which intersects the serpentine groove, wherein when the electron beam is projected along the beam path, the electron beam passes by the signal conductor at a plurality of beam interaction regions;
- at least one ground plate comprising a top in contact with said ground block for enclosing said signal conductor within the serpentine groove; wherein
- the ground plates are spaced apart so as to expose the beam path such that the beam interaction areas are not covered by the ground plates.
- 10. The serpentine slow wave deflection structure of claim 9, and further including:
- electrical feedthrough means for providing an electrical signal to said signal conductor, wherein in response to said electrical signal the electron beam is deflected thereby.
- 11. The serpentine slow wave deflection structure of claim 9, wherein:
- an electrical feedthrough means supports said signal conductor at a pair of ends of said signal conductor.
- 12. The serpentine slow wave deflection structure of claim 9, wherein:
- said signal conductor is rigid and has ends and further is supported at the ends of said signal conductor such that there is no contact between said signal conductor and a bottom of the serpentine groove and further such that there is no contact between said signal conductor and either of a pair of sides of the serpentine groove.
- 13. The serpentine slow wave deflection structure of claim 9, wherein:
- the beam path has a depth such that a bottom thereof coincides in height with a top of the signal conductor.
Government Interests
The invention described herein arose in the course of, or under, contract No. DE-AC08-88NV10617 between the United States Department of Energy and E. G. & G. Energy Measurements.
US Referenced Citations (10)
Foreign Referenced Citations (1)
Number |
Date |
Country |
1394438 |
May 1975 |
GBX |