RU2000100965A - LIGHT SOURCE INCLUDING AUTO-ELECTRONIC CATHODE, AND ALSO THE AUTO-ELECTRONIC CATHODE - Google Patents

Claims (16)

1. A light source comprising a container subjected to evacuation with walls, at least part of which consists of an outer glass layer (23, 23 '), at least the main part of which is coated internally with a phosphorus layer (24, 24') forming a luminescent layer and a conductive layer (25, 25 ') forming the anode, and the luminescence of the phosphorus layer (24, 24') is excited by electron bombardment from the field electrode cathode (40, 40 ') located inside the container, between the cathode (40, 40') and the anode (25, 25 ') is the electrode-modulator, which is necessary for creating an electric field necessary for the emission of electrons, characterized in that the field-effect cathode (40, 40 ') contains a longitudinal core (41, 41') having a central axis and field-effecting the body (42, 42 ') from the core (41, 41 '), the field-carrying emission of the body (42, 42') are extended and distributed along at least a portion of the length of the core (41, 41 '), and the field-carrying emission of the body (42, 42') goes to radially outward from the core (41, 41 ') and have free ends having field emission of a surface.  2. The light source according to claim 1, in which the container has a cylindrical shape.  3. The light source according to claim 1 or 2, in which the electrode modulator (30, 30 ') contains a conductive, essentially cylindrical structure surrounding the field-emission cathode (40, 40').  4. The light source according to any one of claims 1 to 3, in which the luminescent layer (24) is located between the glass layer (23) and the anode (25), and the anode (25) is made of reflective material in order to reflect the light emitted by the luminescent layer (24).  5. The light source according to any one of claims 1 to 3, in which the anode (25 ') is located between the glass layer (23') and the luminescent layer (24 '), and the anode (25') is made of a transparent material.  6. The light source according to any one of claims 1 to 5, in which the said bodies performing field emission of the body (42, 42 ′) radially radiate outward from the core (41, 41 ′) in different directions.  7. The light source according to any one of claims 1 to 6, in which the said surface-emitting surfaces are substantially uniformly distributed around the core (41, 41 ').  8. The light source according to any one of claims 1 to 7, in which the field-emission bodies (42, 42 ′) have substantially the same length.  9. The light source according to any one of claims 1 to 8, in which the field-effect cathode (40, 40 ') has a substantially cylindrical outer shape, limited by field-emission surfaces.  10. The light source according to any one of claims 1 to 9, in which the field-emission bodies (42, 42 ') are made of carbon.  11. The light source according to any one of claims 1 to 10, in which said autoelectronic emission bodies (42, 42 ') having irregularities on said autoelectronic emission surfaces are processed by modifying said autoelectronic emission surfaces by applying to said field emission to bodies (42, 42 ') of an alternating electric field to induce field emission from said emitting surfaces and to increase the intensity of said alternating field electric field in such a way as to limit the wear of these irregularities on these surfaces carrying out field emission.  12. Autoelectronic cathode (40) for use in light sources intended for lighting purposes, including a base body and performing field emission of a body extending from the base body, characterized in that said base body includes a longitudinal core (41), having a central axis, performing field emission of the body (42) are extended and distributed along at least a portion of the length of the core (41), and performing field emission of the body (42) radially extend to the outside They are separated from the core (41) and have free ends equipped with surfaces carrying out field emission.  13. An autoelectronic cathode (40) according to claim 12, wherein the core comprises a rod (46), the autoelectronic emission of the body (42) are carbon fibers, and said carbon fibers are attached to annular disks (44, 45).  14. An autoelectronic cathode (40) according to claim 12, wherein the core comprises a rod (46), the autoelectronic emission of the body (42) are carbon fibers, and said carbon fibers are sandwiched between the annular disks (44, 45).  15. The autoelectronic cathode of claim 13, wherein each fiber is attached to the annular disks in its central part, each fiber has two autoelectronic emission surfaces, one at each end.  16. The autoelectronic cathode of claim 14, wherein each fiber is attached to the annular disks in its central part, each fiber has two autoelectronic emission surfaces, one at each end.