IL42924A - High power beam tube - Google Patents

Claims (8)

V ΛΤ I S C LA I MliU I S :

1. In a high power electron beam tube having a depres -lc beam collector: a thermionic cathode emitter means having a concave emitting surface for supplying thermionic electron emission a centrally apertured accelerating anode means spaced from said cathode emitter and shaped for drawing a convergent stream of electrons through said central aperture of said anode in a substantially non- intercepting manner to form a laminar flow electron beam of generally uniform current density taken transversely across the beam path; depressible collector means disposed at the terminal end of the beam path for collecting the electron beam, said collector having, an electrically conductive beam collector cavity with a constricted mouth portion for ingress of said beam into said cavity and for inhibiting egress of secondary and reflected ' electrons from said beam collector cavity, tapered conductive probe means axially disposed of said collector cavity, collector focusing means disposed at said mouth of said collector, and said collector focusing means and said probe means being formed and arranged for shaping the equipotentials :. iof the electron decelerating electric field at the mouth of said collector to maintain a generally laminar electron flow of uniform current density transversely across the decelerated beam at the mouth of said collector cavity in the presence of regions of space charged depression within said collector cavity, whereby the efficiency of said tube is substantially increased.

2. The apparatus of c mn J wherein aid tapered conductive probe axially of said collector to a terminating free end portion disposed approximately at the mouth of said collector cavity.

3. The apparatus of claim 1 wherein said cathode emitter has a generally spherically concave emitting surface, and wherein the decelerating electric field equipotential essentially at the mouth of said collector means is shaped by said collector focusing means and said probe means in the presence of space charge within said collector cavity to be approximately a mirror image of the corresponding equipotenti overlaying the emitting surface of said cathode emitter.

4. The apparatus of claim 1 wherein said conductive collector probe means includes a substantially conical free end portion with a half cone angle of less than 20°.

5. The apparatus of claim 4 wherein the one-half cone angle is approximately 9°.

6. The apparatus of claim 1 wherein said tapered means is hollow to accommodate a flow of fluid coolant therethrough .

7. The apparatus of claim 1 wherein the free end tip portion of said collector probe has a transverse cross-sectional area for interception of beam current which is less than 1% of the transverse cross -sectional area of said constricted mouth portion of said collector cavity.

8. The apparatus of claim 1 wherein the free end tip portion of said collector probe means terminates at the mouth of said collector just inside the collector cavity from the transverse plane of said mouth, and means for operating said probe at the same depressed potential as said beam collector cavity.