Claims
- 1. A cathode ray tube comprising an envelope including an optically transparent faceplate supporting a luminescent screen, said envelope containing:
- (a) a channel plate electron multiplier having an output side spaced from said luminescent screen and having an input side including a multiplicity of openings defining entrances to respective channels having walls including secondary emissive material;
- (b) means for producing a scanning electron beam and for directing said beam at the input side of the channel plate electron multiplier such that the beam is received at the input side from substantially a predetermined direction and at substantially a predetermined angle of incidence;
- said beam, when scanned across areas of said input side disposed between the openings, producing backscattered electrons which return to said input side from random directions and at random angles; and
- (c) acceptance angle limiting means arranged near the channel entrances for allowing electrons arriving from substantially the predetermined direction and at substantially the predetermined angle of incidence of the electron beam to strike the secondary emissive material in the channels, but inhibiting electrons arriving from other directions and at other angles from striking the secondary emissive material in the channels, thereby minimizing multiplication in said channels of the backscattered electrons.
- 2. A cathode ray tube comprising an envelope including an optically transparent faceplate supporting a luminescent screen, said envelope containing:
- (a) a channel plate electron multiplier having an output side spaced from said luminescent screen and having an input side including a multiplicity of openings defining entrances to respective channels having walls including secondary emissive material;
- (b) means for producing a scanning electron beam and for directing said beam at the input side of the channel plate electron multiplier such that the beam is received at the input side from substantially a predetermined direction and at substantially a predetermined angle of incidence,
- said beam, when scanned across areas of said input side disposed between the openings, producing backscattered electrons which return to said input side from random directions and at random angles; and
- (c) acceptance angle limiting means comprising tilted vanes mounted at the input side and arranged near the channel entrances for allowing electrons arriving from substantially the predetermined direction and at substantially the predetermined angle of incidence of the electron beam to strike the secondary emissive material in the channels, but inhibiting electrons arriving from other directions and at other angles from striking the secondary emissive material in the channels, thereby minimizing multiplication in said channels of the backscattered electrons.
- 3. A cathode ray tube comprising an envelope including an optically transparent faceplate supporting a luminescent screen, said envelope containing:
- (a) a channel plate electron multiplier having an output side spaced from said luminescent screen and having an input side including a multiplicity of openings defining entrances to respective channels having walls including secondary emissive material;
- (b) means for producing a scanning electron beam and for directing said beam at the input side of the channel plate electron multiplier such that the beam is received at the input side from substantially a predetermined direction and at substantially a predetermined angle of incidence,
- said beam, when scanned across areas of said input side disposed between the openings, producing backscattered electrons which return to said input side from random directions and at random angles; and
- (c) acceptance angle limiting means comprising at least two superimposed apertured electrodes mounted at the input side, the apertures in said electrodes corresponding with the openings in said input side, the electrodes being offset relative to each other and the input to form inclined entrance passages for selectively admitting into the channels electrons arriving from substantially the predetermined direction and at substantially the predetermined angle of incidence, thereby minimizing multiplication in said channels of the backscattered electrons.
- 4. A cathode ray tube comprising an envelope including an optically transparent faceplate supporting a luminescent screen, said envelope containing:
- (a) a channel plate electron multiplier having an output side spaced from said luminescent screen and having an input side including a multiplicity of openings defining entrances to respective channels having walls including secondary emissive material;
- (b) means for producing a scanning electron beam and for directing said beam at the input side of the channel plate electron multiplier such that the beam is received at the input side from substantially a predetermined direction and at substantially a predetermined angle of incidence,
- said beam, when scanned across areas of said input side disposed between the openings, producing backscattered electrons which return to said input side from random directions and at random angles; and
- (c) acceptance angle limiting means comprising an apertured electrode mounted at the input side, the apertures in said electrode corresponding with the openings in said input side and being slanted to form inclined entrance passages for selectively admitting into the channels electrons arriving from substantially the predetermined direction and at substantially the predetermined angle of incidence, thereby minimizing multiplication in said channels of the backscattered electrons.
- 5. A cathode ray tube comprising an envelope including an optically transparent faceplate supporting a luminescent screen, said envelope containing:
- (a) a channel plate electron multiplier having an output side spaced from said luminescent screen and having an input side including a multiplicity of openings defining entrances to respective channels having walls including secondary emissive material;
- (b) means for producing a scanning electron beam and for directing said beam at the input side of the channel plate electron multiplier such that the beam is received at the input side from substantially a predetermined direction and at substantially a predetermined angle of incidence,
- said beam, when scanned across areas of said input side disposed between the openings, producing backscattered electrons which return to said input side from random directions and at random angles; and
- (c) acceptance angle limiting means comprising secondary emissive material selectively applied to only those portions of the channel entrances struck by electrons arriving from substantially the predetermined direction and at substantially the predetermined angle of incidence, thereby minimizing multiplication in the channels of the backscattered electrons.
- 6. A cathode ray tube as in claim 1, 2, 3, 4 or 5 where the channel plate electron multiplier comprises a laminated stack of discrete dynodes.
- 7. A cathode ray tube comprising an envelope including an optically transparent faceplate supporting a luminescent screen, said envelope containing:
- (a) a glass matrix channel plate electron multiplier having an output side spaced from said luminescent screen and having an input side including a multiplicity of openings defining entrances to respective continuous channels having walls including secondary emissive material, said input side bearing an input electrode having openings aligned with respective entrances of the channels;
- (b) means for producing a scanning electron beam and for directing said beam at the input side of the channel plate electron multiplier such that the beam is received at the input side from substantially a predetermined direction and at substantially a predetermined angle of incidence; and
- (c) acceptance angle limiting means comprising extensions of said input electrode into said channels, each of said extensions covering portions of the respective channel walls struck by any arriving electrons which do not arrive from substantially the predetermined direction and at substantially the predetermined angle of incidence, thereby minimizing multiplication in said channels of the backscattered electrons.
- 8. A cathode ray tube as in claim 1,2,3,4,5 or 7 including a layer of a material having a low back scattering coefficient disposed at the input side of the channel plate electron multiplier.
- 9. A cathode ray tube as in claim 8 where the layer of material also has a low secondary emission coefficient.
- 10. A cathode ray tube as in claim 8 where the layer of material has a microscopically-rough surface.
- 11. A cathode ray tube as in claim 10 where the layer of material consists essentially of black chromium.
- 12. A cathode ray tube as in claim 10 where the layer of material consists essentially of black nickel.
- 13. A cathode ray tube as in claim 10 where the layer of material consists essentially of black copper.
- 14. A cathode ray tube as in claim 10, where the layer of material consists essentially of a black metal.
- 15. A cathode ray tube as in claim 14 including an electrically conductive coating having a low secondary emission coefficient applied to the black metal layer.
- 16. A cathode ray tube as in claim 14 including an electrically conductive coating having a low back scatter coeffient applied to the black metal layer.
- 17. A cathode ray tube as in claim 10 where the layer of material consists essentially of anodized aluminum and where an electrically conductive coating is applied to said layer of material.
Priority Claims (1)
Number |
Date |
Country |
Kind |
8318495 |
Jul 1983 |
GBX |
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Parent Case Info
This is a continuation of application Ser. No. 626,964, filed July 2, 1984, now abandoned.
US Referenced Citations (9)
Foreign Referenced Citations (3)
Number |
Date |
Country |
0357624 |
Jan 1973 |
SUX |
0807997 |
Jan 1959 |
GBX |
2101396 |
Jan 1983 |
GBX |
Continuations (1)
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Number |
Date |
Country |
Parent |
626964 |
Jul 1984 |
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