Claims
- 1. A single line scanner comprising:
- a semiconductor waveguide of rectangular cross section adapted to propagate wave energy in the E.sub.11.sup.y mode along a prescribed axis transverse to the dimensions of said cross section;
- said waveguide having top and bottom surfaces parallel to said axis;
- a plurality of spaced parallel radiator elements on said top surface transverse to said prescribed axis in the path of said propagated wave energy;
- means affixed to another surface to prevent outward radiation therefrom as wave energy is propagated along said waveguide; and
- means in circuit with said radiation prevention means for changing the wavelengths in said waveguide at a given frequency of operation to control the wavelength spacing between said radiator elements whereby radiated energy is reinforced to produce a radiation lobe pattern at a prescribed angle with respect to said propagating axis.
- 2. The single line scanner in accordance with claim 1 wherein said waveguide is made of silicon.
- 3. The single line scanner in accordance with claim 1 wherein said radiator elements comprise alloyed ohmic bars.
- 4. The single line scanner in accordance with claim 1 wherein said radiation preventing means comprise a plurality of spaced PIN diodes transverse to said prescribed axis.
- 5. The single line scanner in accordance with claim 4 wherein the means for changing the wavelength spacing comprises a variable voltage source for forward biasing said PIN diodes, the angle of reinforcement being a function of the value of the applied forward bias.
- 6. The single line scanner in accordance with claim 4 wherein said PIN diodes each comprise spaced p and n type doped strips.
- 7. The single line scanner in accordance with claim 2 wherein said radiator elements comprise alloyed ohmic bars embedded in said silicon a portion of said bars being exposed to interact with said propagated E.sub.11.sup.y mode wave energy.
- 8. The single line scanner in accordance with claim 5 wherein said other surface is said bottom surface.
- 9. The single line scanner in accordance with claim 5 wherein said other surface is a sidewall surface of said waveguide.
- 10. The single line scanner in accordance with claim 8 wherein said waveguide is made of silicon.
- 11. The single line scanner in accordance with claim 9 wherein said waveguide is made of silicon.
Government Interests
The invention described herein may be manufactured and used by or for Governmental purposes without the payment of any royalties thereon or therefor.
US Referenced Citations (1)
Number |
Name |
Date |
Kind |
2921308 |
Hansen et al. |
Jan 1960 |
|