Multiple band polarization rotating phased array element

What is claimed is: 1. A multiple frequency band phase shifter comprising: a first dielectric layer including a top, first dielectric surface and a bottom, first dielectric surface, wherein the top, first dielectric surface is on an opposite side of the first dielectric layer relative to the bottom, first dielectric surface, wherein the first dielectric layer is formed of a dielectric material; a conductive layer including a top conductive surface and a bottom conductive surface, wherein the top conductive surface is on an opposite side of the conductive layer relative to the bottom conductive surface, wherein the bottom conductive surface is mounted to the top, first dielectric surface, wherein the conductive layer is formed of a first conductive material; a second dielectric layer including a top, second dielectric surface and a bottom, second dielectric surface, wherein the top, second dielectric surface is on an opposite side of the second dielectric layer relative to the bottom, second dielectric surface, wherein the bottom, second dielectric surface is mounted to the top conductive surface, wherein the second dielectric layer is formed of a second dielectric material; and for each central operating frequency of a plurality of central operating frequencies, a switch mounted to the bottom, first dielectric surface, the switch configured to be switchable between a first conducting position defined by a first throw arm and a second conducting position defined by a second throw arm; a plurality of vertical interconnect accesses (vias), wherein each vertical interconnect access (via) of the plurality of vias is formed of a second conductive material that extends through the first dielectric layer, through a third dielectric material formed in and through the conductive layer, and through the second dielectric layer, wherein each via of the plurality of vias is connected to one of the first throw arm or the second throw arm of the switch; and a conducting pattern layer comprising a plurality of conductors, wherein the plurality of conductors is mounted to the top, second dielectric surface, wherein the conducting pattern layer is formed of a third conductive material, wherein each conductor of the plurality of conductors is electrically connected to a distinct via of the plurality of vias; wherein the first conductive material is configured to reflect an electromagnetic wave incident on the conducting pattern layer and on the second dielectric layer, wherein, when the incident electromagnetic wave is reflected, an electric polarization of the reflected electromagnetic wave is rotated by 90 degrees compared to an electric polarization of the incident electromagnetic wave when the switch is positioned in the first conducting position and the electric polarization of the reflected electromagnetic wave is rotated by −90 degrees compared to the electric polarization of the incident electromagnetic wave when the switch is positioned in the second conducting position. 2. The multiple frequency band phase shifter of claim 1 , wherein at least one of the first conductive material, the second conductive material, and the third conductive material is a different conductive material. 3. The multiple frequency band phase shifter of claim 1 , wherein at least one of the first dielectric material, the second dielectric material, and the third dielectric material is a different dielectric material. 4. The multiple frequency band phase shifter of claim 1 , wherein the first dielectric layer is formed of a plurality of layers of different dielectric materials. 5. The multiple frequency band phase shifter of claim 1 , wherein the second dielectric layer is formed of a plurality of layers of different dielectric materials. 6. The multiple frequency band phase shifter of claim 1 , wherein the dielectric material is air. 7. The multiple frequency band phase shifter of claim 1 , wherein a number of the plurality of conductors for each central operating frequency of the plurality of central operating frequencies is four. 8. The multiple frequency band phase shifter of claim 7 , wherein the conducting pattern layer of each central operating frequency of the plurality of central operating frequencies has a crossed-dipole shape. 9. The multiple frequency band phase shifter of claim 7 , wherein each conductor of the plurality of conductors has an arrow shape with a first arrow tip arm and a second arrow tip arm separated by 90 degrees. 10. The multiple frequency band phase shifter of claim 9 , wherein a tip of each arrow shape is pointed toward a center of the plurality of conductors for each central operating frequency of the plurality of central operating frequencies. 11. The multiple frequency band phase shifter of claim 7 , wherein each conductor of the plurality of conductors has a quadrilateral shape with a first arm and a second arm separated by 90 degrees. 12. The multiple frequency band phase shifter of claim 7 , wherein the plurality of conductors for a respective central operating frequency of the plurality of central operating frequencies form a mirror image relative to a first plane perpendicular to the top, second dielectric surface and through the center and relative to a second plane perpendicular to the top, second dielectric surface and through the center, wherein the first plane is perpendicular to the second plane. 13. The multiple frequency band phase shifter of claim 7 , wherein the first throw arm of the switch for each central operating frequency of the plurality of central operating frequencies connects a first via of the plurality of vias of a respective central operating frequency to a second via of the plurality of vias of the respective central operating frequency, wherein a first conductor of the plurality of conductors of the respective central operating frequency is connected to the first via, wherein a second conductor of the plurality of conductors of the respective central operating frequency is connected to the second via. 14. The multiple frequency band phase shifter of claim 13 , wherein the second throw arm of the switch for each central operating frequency of the plurality of central operating frequencies connects a third via of the plurality of vias of the respective central operating frequency to a fourth via of the plurality of vias of the respective central operating frequency, wherein a third conductor of the plurality of conductors of the respective central operating frequency is connected to the third via, wherein a fourth conductor of the plurality of conductors of the respective central operating frequency is connected to the fourth via. 15. The multiple frequency band phase shifter of claim 14 , wherein a first electrical path length of the first conductor in combination with the first via of the respective central operating frequency is approximately a quarter of a wavelength λ 0 /4, where λ 0 =c/f 0 , where c is a speed of light and f 0 is the respective central operating frequency of the incident electromagnetic wave. 16. The multiple frequency band phase shifter of claim 15 , wherein a second electrical path length of the first conductor in combination with the first via, the first throw arm, the third via, and the third conductor of the respective central operating frequency is approximately a half of a wavelength λ 0 /2. 17. The multiple frequency band phase shifter of claim 14 , wherein the first via of the plurality of vias of a first central operating frequency is positioned adjacent the third via of the plurality of vias of a second central operating fre