High frequency switch for high frequency signal transmitting/receiving devices

What is claimed is: 1. A high frequency switch comprising: a substrate; a pair of ground sections provided on the substrate; a center conductor provided between the pair of ground sections; a photoconductive semiconductor element provided on the center conductor and extending between the center conductor and the pair of ground sections; and a pair of signal transmission lines provided on the substrate, wherein the center conductor is continuously extended from one of the pair of signal transmission lines to the other one of the pair of signal transmission lines, wherein the pair of signal transmission lines are respectively electrically connected to both end portions of the center conductor, and wherein a width of each of the pair of signal transmission lines is greater than a width of the center conductor. 2. The high frequency switch of claim 1 , wherein the photoconductive semiconductor element fills regions between the center conductor and the pair of ground sections. 3. The high frequency switch of claim 1 , wherein the center conductor has a line shape extending in one direction parallel to a top surface of the substrate. 4. The high frequency switch of claim 1 , further comprising: a bottom ground layer covering a bottom surface of the substrate; and a plurality of vias electrically connecting the bottom ground layer and the pair of ground sections to each other, wherein the plurality of vias penetrate the substrate. 5. The high frequency switch of claim 1 , further comprising: a dielectric layer provided between the substrate and the pair of ground sections; a pair of ground electrodes provided between the substrate and the dielectric layer; and a plurality of ground vias electrically connecting the pair of ground sections and the pair of ground electrodes to each other, wherein the center conductor is provided on the dielectric layer and the plurality of ground vias penetrate the dielectric layer. 6. The high frequency switch of claim 5 , further comprising: wherein the pair of signal transmission lines provided between the substrate and the dielectric layer, wherein a plurality of signal transmission vias electrically connecting the pair of signal transmission lines and two end portions of the center conductor to each other, and wherein the plurality of signal transmission vias penetrate the dielectric layer. 7. The high frequency switch of claim 1 , wherein the center conductor extends non-linearly. 8. The high frequency switch of claim 1 , further comprising: a plurality of capacitive stubs; and a plurality of matching inductance elements, wherein the plurality of capacitive stubs and the plurality of matching inductance elements are impedance-matched to each other. 9. The high frequency switch of claim 8 , wherein the capacitive stubs extend respectively from the matching inductance elements. 10. A high frequency switch comprising: a pair of ground sections; a center conductor provided between the pair of ground sections; a photoconductive semiconductor element provided on the center conductor and extending between the center conductor and the pair of ground sections; a light source irradiating control light on the photoconductive semiconductor element; and a pair of signal transmission lines provided on a substrate, wherein the center conductor is continuously extended from one of the pair of signal transmission lines to the other one of the pair of signal transmission lines, wherein the pair of signal transmission lines are respectively electrically connected to both end portions of the center conductor, and wherein a width of each of the pair of signal transmission lines is greater than a width of the center conductor. 11. The high frequency switch of claim 10 , wherein the light source is provided on the photoconductive semiconductor element. 12. The high frequency switch of claim 10 , wherein the light source is provided by a plurality of light sources. 13. The high frequency switch of claim 10 , further comprising a controller configured to control an operation of the light source emitting the control light. 14. The high frequency switch of claim 10 , further comprising an optical fiber provided between the light source and the photoconductive semiconductor element, wherein the optical fiber transmits the control light to the photoconductive semiconductor element. 15. A high frequency switch comprising: a substrate; a pair of signal transmission lines provided on the substrate, a photoconductive semiconductor element provided on the substrate; and a coplanar waveguide line provided between the substrate and the photoconductive semiconductor element, wherein, when control light is irradiated on the photoconductive semiconductor element, electromagnetic waves propagated to the coplanar waveguide line are reflected, and wherein, when the control light is blocked from being irradiated on the photoconductive semiconductor element, the electromagnetic waves are passed through the high frequency switch, wherein the coplanar waveguide line comprises a pair of ground sections and a center conductor provided between the pair of ground sections, wherein the center conductor is continuously extended from one of the pair of signal transmission lines to the other one of the pair of signal transmission lines, wherein the pair of signal transmission lines are respectively electrically connected to both end portions of the center conductor, and wherein a width of each of the pair of signal transmission lines is greater than a width of the center conductor. 16. The high frequency switch of claim 15 , wherein a wavelength band of the control light comprises a maximum absorption wavelength of the photoconductive semiconductor element. 17. The high frequency switch of claim 15 , wherein the photoconductive semiconductor element extends between the center conductor and the pair of ground sections, and wherein a ground voltage is applied to the pair of ground sections. 18. The high frequency switch of claim 17 , wherein, when the control light is irradiated on the photoconductive semiconductor element, the center conductor is electrically connected to the pair of ground sections by the photoconductive semiconductor element between the center conductor and the pair of ground sections, and wherein, when the control light is blocked from being irradiated on the photoconductive semiconductor element, the center conductor and the pair of ground sections are disconnected from each other by the photoconductive semiconductor element. 19. The high frequency switch of claim 15 , further comprising a light source irradiating the control light on the photoconductive semiconductor element.