Multi-layer printed circuit board having first and second coaxial vias coupled to a core of a dielectric waveguide disposed in the circuit board

What is claimed is: 1. A multi-layer printed circuit board (PCB), comprising: a dielectric waveguide comprising a core and a cladding, wherein the cladding is disposed on at least two sides of the core, and wherein a material of the core has a higher dielectric constant than a material of the cladding; a first coaxial via comprising a first center conductor and a first outer conductor surrounding the first center conductor, wherein the first center conductor extends at least partially into a first end of the core; a second coaxial via comprising a second center conductor and a second outer conductor surrounding the second center conductor, wherein the second center conductor extends at least partially into a second end of the core; and a plurality of dielectric layers each separated by respective conductive ground planes, wherein the plurality of dielectric layers and the ground planes are disposed on a first side of the dielectric waveguide. 2. The PCB of claim 1 , further comprising: a pair of conductive ground planes, wherein the core and cladding are sandwiched between the pair of conductive ground planes, and wherein the core and cladding directly contact both ground planes in the pair of conductive ground planes. 3. The PCB of claim 1 , wherein the first and second coaxial vias extend through the plurality of dielectric layers and the ground planes, wherein the first and second outer conductors are electrically coupled to the ground planes and the first and second center conductors are electrically insulated from the ground planes. 4. The PCB of claim 3 , wherein the first and second outer conductors do not extend into the core or into the cladding of the dielectric waveguide. 5. The PCB of claim 1 , wherein the first and second center conductors do not extend all the way through the core of the dielectric waveguide. 6. The PCB of claim 1 , further comprising: a first plurality of ground vias arranged around a circumference of the first outer conductor to direct electromagnetic signals radiated by the first coaxial via in a direction along the core towards the second coaxial via. 7. The PCB of claim 6 , further comprising: a second plurality of ground vias forming a horn shape that flares out from the first center conductor to the second center conductor along an axis extending between the first and second center conductors. 8. A communication system, comprising: a dielectric waveguide comprising a core and a cladding, wherein the cladding is disposed on at least two sides of the core, and wherein a material of the core has a higher dielectric constant than a material of the cladding; a first coaxial via comprising a first center conductor and a first outer conductor surrounding the first center conductor, wherein the first center conductor extends at least partially into a first end of the core; a second coaxial via comprising a second center conductor and a second outer conductor surrounding the second center conductor, wherein the second center conductor extends at least partially into a second end of the core; and a pair of conductive ground planes, wherein the core and cladding are sandwiched between the pair of conductive ground planes, wherein the core and cladding directly contact both ground planes in the pair of conductive ground planes, wherein the first and second center conductors do not extend all the way through the core of the dielectric waveguide. 9. The communication system of claim 8 , further comprising: a first plurality of ground vias arranged around a circumference of the first outer conductor to direct electromagnetic signals radiated by the first coaxial via in a direction along the core towards the second coaxial via. 10. The communication system of claim 9 , further comprising: a second plurality of ground vias forming a horn shape that flares out from the first center conductor to the second center conductor along an axis extending between the first and second center conductors. 11. The communication system of claim 8 , wherein the first and second center conductors and the first and second outer conductors extend through at least one of the pair of conductive ground planes. 12. The communication system of claim 11 , wherein the first and second outer conductors do not extend into the core or into the cladding of the dielectric waveguide. 13. A method of fabricating a PCB, comprising: forming a dielectric waveguide comprising a core and a cladding, wherein the cladding is disposed on at least two sides of the core, and wherein a material of the core has a higher dielectric constant than a material of the cladding, wherein forming the dielectric waveguide comprises: depositing the cladding onto a first conductor, removing a portion of the cladding, depositing the core into the removed portion of the cladding, planarizing a top surface of the cladding and core, and depositing a second conductor onto the planarized top surface; forming a first coaxial via comprising a first center conductor and a first outer conductor surrounding the first center conductor, wherein the first center conductor extends at least partially into a first end of the core; and forming a second coaxial via comprising a second center conductor and a second outer conductor surrounding the second center conductor, wherein the second center conductor extends at least partially into a second end of the core. 14. The method of claim 13 , wherein forming the first coaxial via comprises: forming a first aperture through at least one dielectric layer and at least one ground plane in the PCB, wherein the aperture extends to the core; disposing a first conductive material into the aperture; and removing a center portion of the first conductive material thereby forming the first outer conductor. 15. The method of claim 14 , wherein forming the first coaxial via comprises: disposing a dielectric material into the removed center portion of the first conductive material; forming a second aperture through a center portion of the dielectric material, the second aperture extending through the at least one dielectric layer, the at least one ground plane, and the core; disposing a second conductive material into the second aperture, thereby forming the first center conductor. 16. The method of claim 15 , wherein forming the first coaxial via comprises: removing a portion of the second conductive material in the core such that the first center conductor does not extend all the way through the core.