Bi-triaxial photoconductive switch module

What is claimed is: 1. A bi-triaxial photoconductive switch module, comprising: an outer conductor; a center electrode; a first capacitor formed between a first section of the outer conductor and a first plate that is positioned within a cavity formed by the outer conductor; a second capacitor formed between a second section of the outer conductor and a second plate that is positioned within the cavity formed by the outer conductor; a first photoconductive switch positioned between the first plate and the center electrode such that, upon activation of the first photoconductive switch, an electrical connection between the first plate and the center electrode is formed; a second photoconductive switch positioned between the second plate and the center electrode such that, upon activation of the second photoconductive switch, an electrical connection between the second plate and the center electrode is formed; and an output conductor coupled to the center electrode to deliver an output of the bi-triaxial photoconductive switch module. 2. The bi-triaxial photoconductive switch module of claim 1 , further comprising one or more light sources coupled to the first and the second photoconductive switches to enable activation of the first and the photoconductive switches. 3. The bi-triaxial photoconductive switch module of claim 2 , comprising an optical delay element configured to introduce a timing delay into one or both of: a first light path from the one or more light sources to the first photoconductive switch, or a second light path from the one or more light sources to the second photoconductive switch. 4. The bi-triaxial photoconductive switch module of claim 2 , wherein the one or more light sources are configured to deliver light to the first photoconductive switch that is out of phase with respect to light delivered to the second photoconductive switch. 5. The bi-triaxial photoconductive switch module of claim 2 , comprising an optical fiber that enables delivery of light to one or both of the first or the second photoconductive switches. 6. The bi-triaxial photoconductive switch module of claim 1 , wherein: each of the first and the second plates has an elongated rectangular shape, the first plate has a first length, a first width and a first thickness, and the second plate has a second length, a second width and a second thickness. 7. The bi-triaxial photoconductive switch module of claim 6 , wherein the first length is substantially equal to the second length, the first width is substantially equal to the second width and the first thickness is substantially equal to the second thickness. 8. The bi-triaxial photoconductive switch module of claim 6 , wherein both the first plate and the second plate are positioned in a parallel configuration with respect to a longitudinal axis of the bi-triaxial photoconductive switch module such that a rectangular area of the first plate having the first length and the first width faces a rectangular area of the second plate having the second length and the second width. 9. The bi-triaxial photoconductive switch module of claim 6 , wherein one or both of the first plate or the second plate are positioned at an angled configuration with respect to a longitudinal axis of the bi-triaxial photoconductive switch module such that a rectangular area, or a portion thereof, of the first plate does not face a rectangular area, or a portion thereof, of the second plate. 10. The bi-triaxial photoconductive switch module of claim 9 , wherein the angled configuration forms an angle with respect to the longitudinal axis that is substantially equal to 90 degrees. 11. The bi-triaxial photoconductive switch module of claim 9 , wherein the outer conductor has an elliptical cross-sectional area. 12. The bi-triaxial photoconductive switch module of claim 1 , further comprising one or more power supplies coupled to the first and the second capacitors to supply the first and the second capacitors with voltages having opposite polarities. 13. The bi-triaxial photoconductive switch module of claim 1 , wherein the output conductor is a coaxial cable. 14. The bi-triaxial photoconductive switch module of claim 13 , comprising a tapered section having a cone-shaped surface that couples the outer conductor to a conductor of the coaxial cable, wherein a diameter of a cylindrical enclosure formed by the outer conductor is larger than a diameter of the conductor of the coaxial cable. 15. The bi-triaxial photoconductive switch module of claim 1 , wherein: the first capacitor includes a first dielectric material between at least a section of the first plate and a curved surface of the first section of the outer conductor, and the second capacitor includes a second dielectric material between at least a section of the second plate and a curved surface of the second section of the outer conductor. 16. The bi-triaxial photoconductive switch module of claim 15 , wherein the first dielectric material is the same type as the second dielectric material. 17. The bi-triaxial photoconductive switch module of claim 1 , wherein one or both of the first capacitor or the second capacitor is a cast-in-place capacitor. 18. The bi-triaxial photoconductive switch module of claim 16 , wherein each of the first and the second capacitor comprises a dielectric material that it formed by pouring or injecting the dielectric material in liquid form into a space between the first section of the outer conductor and the first plate and into a space between the second section of the outer conductor and the second plate, and allowing the liquid to settle into a solid form. 19. The bi-triaxial photoconductive switch module of claim 1 , wherein the center electrode comprises a double center-bored electrode that is positioned between the first photoconductive switch and the second photoconductive switch. 20. The bi-triaxial photoconductive switch module of claim 1 , wherein the center electrode comprises: a first hollow electrode, a second hollow electrode, and a double center-bored electrode, wherein the first hollow electrode is positioned between the first plate and the first photoconductive switch, the second hollow electrode is positioned between the second plate and the second photoconductive switch, and the double center-bored electrode is positioned between the first photoconductive switch and the second photoconductive switch. 21. The bi-triaxial photoconductive switch module of claim 1 , wherein the first capacitor or the second capacitor comprises a discrete capacitor. 22. The bi-triaxial photoconductive switch module of claim 21 , wherein the outer conductor has a rectangular cross-sectional area. 23. The bi-triaxial photoconductive switch module of claim 1 , wherein the outer conductor has a circular cross-sectional area. 24. A method for operating a bi-triaxial photoconductive switch module, comprising: supplying a voltage having a first polarity to a first capacitor of the bi-triaxial photoconductive switch module to charge the first capacitor; supplying a voltage having a second polarity to a second capacitor of the bi-triaxial photoconductive switch module to charge the second capacitor, wherein the bi-triaxial photoconductive switch module further comprises: a first photoconductive switch coupled to the first capacitor, a second photoconductive switch coupled to the second capacitor, a center electrode coupled to the first photocon