Vector light sensor and array thereof

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A vector light sensor (VLS) comprising: a crystalline silicon substrate having a major surface in a (100) plane; and a sensor structure comprising: a pyramid structure integral with the silicon substrate, the pyramid structure protruding from the major surface of the crystalline silicon, the pyramid structure forming at least a portion of a body of the sensor structure, the pyramid structure having predefined angles between the major surface of the substrate and a plurality of sidewalls of the pyramid structure, wherein the pyramid structure is etched from the crystalline silicon substrate, and wherein the angles are predefined by anisotropic etching of the crystalline silicon substrate, individual light-sensitive areas formed on each of two or more of the plurality of sidewalls of the pyramid structure, and electrical contacts carried by the substrate and electrically coupled to the light-sensitive areas. 2. The VLS of claim 1 , wherein at least two of the plurality of sidewalls meet at a point. 3. The VLS of claim 1 , further comprising: a flat surface on top of the pyramid structure, wherein the flat surface is substantially parallel to the major surface of the substrate. 4. The VLS of claim 1 , wherein the pyramid has a polygon base. 5. The VLS of claim 4 , wherein the polygon base is a square base. 6. The VLS of claim 4 , wherein the polygon base is a triangular base. 7. The VLS of claim 1 , wherein the light-sensitive areas comprise photoconductive materials. 8. The VLS of claim 1 , wherein the light-sensitive areas comprise pyroelectric materials. 9. The VLS of claim 1 , wherein the light-sensitive areas comprise light-sensing layers based on nanoparticles. 10. The VLS of claim 1 , wherein the light-sensitive areas comprise photodiodes. 11. The VLS of claim 1 , wherein the light-sensitive areas comprise charge-coupled devices. 12. The VLS of claim 1 , wherein the light-sensitive areas are sensitive to light wavelengths in the visible range. 13. The VLS of claim 1 , wherein the light-sensitive areas are sensitive to light wavelengths in the infrared range. 14. The VLS of any claim 1 , wherein the light-sensitive areas are sensitive to light wavelengths in the ultra-violet range. 15. The VLS of claim 1 , wherein the light-sensitive areas are sensitive to light wavelengths in the X-ray range. 16. The VLS of claim 1 , wherein the light-sensitive areas are sensitive to light wavelengths in the Gamma-ray range. 17. The VLS of claim 1 , wherein at least one of the light-sensitive areas is located in a partially-removed portion of the substrate. 18. The VLS of claim 1 , wherein one or more of the light-sensitive areas are located on an elevated platform. 19. The VLS of claim 1 , further comprising: a signal processing interface coupled to the electrical contacts and configured to extract information about intensity and direction of an incident light beam by comparing signals from two or more of the light-sensitive areas. 20. The VLS of claim 1 , where the light sensitive areas are silicon pn junctions made from the body of the pyramid structure. 21. The VLS of claim 1 , wherein the pyramid structure is a member of a 2D array of pyramid structures, wherein individual pyramid structures of the 2D array of pyramid structures are integral-with and protrude-from the major surface of the crystalline silicon substrate, and wherein individual light-sensitive areas are formed on each of two or more of the plurality of sidewalls of the individual pyramid structures of the 2D array of pyramid structures. 22. A vector light sensor (VLS) array comprising: a crystalline silicon substrate having a major surface in a (100) plane; a plurality of sensor structures on the major surface of the substrate, wherein each of the plurality of sensor structures comprises: a pyramid structure integral with the silicon substrate, the pyramid structure protruding from the major surface of the substrate, the pyramid structure having predefined angles between the major surface of the substrate and a plurality of sidewalls of the pyramid, wherein the pyramid structure is formed from the crystalline silicon substrate, and wherein the angles are predefined by anisotropic etching of the crystalline silicon substrate, individual light-sensitive areas formed on each of two or more of the plurality of sidewalls of the pyramid structure, and electrical contacts carried by the substrate and electrically coupling the light-sensitive areas. 23. The VLS of claim 22 , where the light sensitive areas are silicon pn junctions made from the body of the pyramid structure. 24. The VLS of claim 22 , wherein the light-sensitive areas comprise photoconductive materials. 25. The VLS array of claim 22 , wherein the pyramid structure is a member of a 2D array of pyramid structures, wherein individual pyramid structures of the 2D array of pyramid structures are integral-with and protrude-from the major surface of the crystalline silicon substrate, and wherein individual light-sensitive areas are formed on each of two or more of the plurality of sidewalls of the individual pyramid structures of the 2D array of pyramid structures. 26. A vector light sensor (VLS) comprising: a crystalline silicon substrate having a major surface in a (100) plane; and a sensor structure comprising: a pyramid structure integral with the silicon substrate, forming at least a portion of a body of the sensor structure, the pyramid structure having predefined angles between the major surface of the crystalline silicon substrate and a plurality of sidewalls of the pyramid structure, wherein the pyramid structure protrudes into the silicon substrate, and wherein the sidewalls of the pyramid structure form an inverted pyramid anisotropically etched into the crystalline silicon substrate, individual light-sensitive areas formed on each of two or more of the plurality of sidewalls of the pyramid structure, wherein the light-sensitive areas face each other, and wherein entire individual light-sensitive areas are smaller than or equal to the corresponding individual sidewalls of the pyramid structure, and electrical contacts carried by the substrate and electrically coupled to the light-sensitive areas. 27. The VLS of claim 26 , wherein the pyramid structure is a member of a 2D array of pyramid structures, wherein individual pyramid structures of the 2D array of pyramid structures are integral-with and protrude-into the crystalline silicon substrate, and wherein individual light-sensitive areas are formed on each of two or more of the plurality of sidewalls of the individual pyramid structures of the 2D array of pyramid structures.