Claims
- 1. In combination, an infrared sensor including:
- (a) a pyroelectric substrate having first and second major surfaces,
- (b) a layer of conductive infrared radiation absorbing material on said first major surface, and
- (c) a metallic grid including discrete grid lines disposed on said second major surface and exposing predefined discrete areas of said second major surface, whereby upon the application of a predetermined bias voltage between said layer of conductive material and said grid and the receipt of both predetermined constant photon energy by said second major surface and infrared radiation by said first major surface, said substrate develops open circuit voltages between discrete lines of said metallic grid which alter the electric field patterns adjacent said grid and, in turn, control the quantity of photo-electrons released from said grid and available for acceleration to a remote target.
- 2. The sensor defined in claim 1 wherein said pyroelectric substrate is comprised of a wafer of lithium tantalate, LiTaO.sub.3.
- 3. The sensor defined in claim 2 wherein said layer of conductive material is gold and said metallic grid is cesiated antimony.
- 4. In combination, a pyroelectric imaging device including:
- (a) a pyroelectric substrate having first and second major surfaces,
- (b) a conductive layer of infrared radiation absorbing material on said first major surface,
- (c) a metallic grid disposed on said second major surface and exposing predefined discrete areas of said second major surface,
- (d) means for illuminating the exposed areas of said second major surface with a preselected source of photon energy necessary to free electrons from said grid,
- (e) means for accelerating free electrons away from said metallic grid, and
- (f) electron target means mounted in a predetermined spaced relationship with respect to said metallic grid and said accelerating means for producing a visible image or an image signal which is dependent upon the pattern and quantity of electrons received from said metallic grid.
- 5. The combination defined in claim 4 wherein said pyroelectric substrate is comprised of a wafer of lithium tantalate, LiTaO.sub.3.
- 6. The combination defined in claim 5 wherein said layer of conductive material is gold and said metallic grid is cesiated antimony.
- 7. An infrared sensor comprising:
- (a) a pyroelectric substrate having first and second major surfaces,
- (b) a conductive layer on said first major surface for applying a potential thereto and also for absorbing received infrared radiation, and
- (c) an electron emissive metallic grid disposed on said second major surface for emitting electrons in response to predetermined photon energy and adjacent electric field patterns in quantity proportional to levels of infrared radiation received by said pyroelectric substrate.
- 8. The sensor defined in claim 7 wherein:
- (a) said pyroelectric substrate is lithium tantalate, LiTaO.sub.3,
- (b) said conductive layer is gold, and
- (c) said metallic grid is cesiated antimony.
- 9. In combination, the sensor defined in claim 7 and further including:
- (a) means for illuminating the exposed areas of said second major surface with a preselected source of photon energy necessary to free electrons from said grid,
- (b) means for accelerating free electrons away from said metallic grid, and
- (c) electron target means mounted in a predetermined spaced relationship with respect to said metallic grid and said accelerating means for producing a visible image or an image signal which is dependent upon the pattern and quantity of electrons received from said metallic grid.
- 10. The combination defined in claim 9 wherein said pyroelectric substrate is comprised of a wafer of lithium tantalate, LiTaO.sub.3.
- 11. The combination defined in claim 10 wherein said layer of conductive material is gold and said metallic grid is cesiated antimony.
FIELD OF THE INVENTION
This application is a Continuation-In-Part of application Ser. No. 584,805, filed June 9, 1975, now abandoned.
US Referenced Citations (1)
Number |
Name |
Date |
Kind |
3898461 |
Boot |
Aug 1975 |
|
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
584805 |
Jun 1975 |
|