Wideband antenna structure with optics reflector as ground plane and associated methods

What is claimed is: 1. A transducer system comprising: an antenna subsystem including multiple radio frequency (RF) radiating elements disposed adjacent to a ground plane, wherein the multiple RF radiating elements include first and second monopole radiating elements located near opposing edges of the ground plane; and an optical transducer subsystem collocated with the antenna subsystem, wherein the round plane is an optical reflector in the optical transducer subsystem in addition to being a ground plane in the antenna subsystem. 2. The transducer system of claim 1 , wherein: the ground plane includes an opening in a central region thereof; and the optical transducer subsystem extends through the opening in the ground plane. 3. The transducer system of claim 1 , wherein: the optical transducer subsystem includes an optical source to generate a light signal, an optical element to transmit the light signal into an exterior environment, and an optical path coupling the optical source and the optical element, wherein the ground plane is an optical reflector within the optical path. 4. The transducer system of claim 1 , wherein: the ground plane is a primary optical reflector within an optical path of the optical transducer subsystem; and the optical transducer subsystem further comprises a secondary optical reflector within the optical path that is different from the primary optical reflector. 5. The transducer system of claim 4 , wherein: the secondary optical reflector is formed of dielectric material. 6. The transducer system of claim 4 , wherein: the secondary optical reflector is formed of meta-material. 7. The transducer system of claim 4 , wherein: the ground plane includes an opening in a central region thereof; and the secondary reflector is positioned to focus light signals through the opening in the ground plane during light signal reception operations. 8. The transducer system of claim 1 , wherein: the ground plane has either a parabolic shape or a semi-spherical shape. 9. The transducer system of claim 1 , wherein: the ground plane is highly polished. 10. The transducer system of claim 1 , wherein: the ground plane has a highly reflective coating. 11. The transducer system of claim 1 , wherein: the first and second monopole radiating elements each include an opening therein for use as an optical aperture. 12. The transducer system of claim 1 , wherein: the transducer system is located within a missile. 13. A transducer system comprising: an antenna subsystem including multiple radio frequency (RF) radiating elements disposed adjacent to a ground plane, wherein the multiple RF radiating elements include first and second monopole radiating elements located near opposing edges of the ground plane; an optical transducer subsystem collocated with the antenna subsystem, wherein the round plane is an optical reflector in the optical transducer subsystem in addition to being a ground plane in the antenna subsystem; wherein the ground plane is a primary optical reflector within an optical path of the optical transducer subsystem, the optical transducer subsystem further comprises a secondary optical reflector within the optical path that is different from the primary optical reflector; and the secondary optical reflector is located in a region between the first and second monopole radiating elements, wherein the secondary optical reflector provides little or no coupling with the first and second monopole radiating elements. 14. A transducer system comprising: an antenna subsystem including multiple radio frequency (RF) radiating elements disposed adjacent to a ground plane, wherein the multiple RF radiating elements include first and second monopole radiating elements located near opposing edges of the ground plane; the first and second monopole radiating elements are conformal to a surface of a radome; and an optical transducer subsystem collocated with the antenna subsystem, wherein the round plane is an optical reflector in the optical transducer subsystem in addition to being a ground plane in the antenna subsystem. 15. A transducer system comprising: an antenna subsystem including: a ground plane having an opening in a central region thereof; and a plurality of monopole antenna elements coupled to and projecting above the ground plane; and an optical transducer subsystem collocated with the antenna subsystem, the optical transducer subsystem including a secondary reflector configured to reflect light signals toward the opening in the ground plane or reflect light signals received through the opening in the ground plane during optical operations; and a radome disposed about said antenna subsystem and said optical transducer subsystem, and wherein said plurality of monopole antenna elements are integrated into a surface of said radome. 16. The transducer system of claim 15 , wherein: the secondary reflector is located between at least two of the RF radiating elements of the antenna subsystem and is formed of dielectric material to prevent significant coupling with the at least two RF radiating elements. 17. The transducer system of claim 15 , wherein: the secondary reflector includes meta-material. 18. The transducer system of claim 15 , wherein: the ground plane is a primary optical reflector in an optical path associated with the optical transducer subsystem in addition to being a ground plane in the antenna subsystem. 19. The transducer system of claim 18 , wherein: the ground plane has either a parabolic shape or a semi-spherical shape. 20. The transducer system of claim 15 , wherein: the plurality of monopole antenna elements are disposed on and in contact with the ground plane. 21. The transducer system of claim 15 , wherein: the plurality of monopole antenna elements are integrated onto a surface of the ground plane.