Coplanar waveguide implementing launcher and waveguide channel section in IC package substrate

What is claimed is: 1. A coplanar waveguide (CPW) apparatus comprising: a substrate having a first surface and an opposing second surface, the substrate comprising: a first metal layer proximate to the first surface, the first metal layer comprising: a first conductive trace comprising a first signal line coupled to a launcher element at a first end of the first signal line; and a first ground plane co-planar with the first conductive trace, the first ground plane defining a substantially rectangular first region surrounding the launcher element and a second region surrounding the first signal line, the first and second regions substantially devoid of conductive material; wherein the launcher element has a substantially rectangular shape with a width greater than a width of the signal line at the first end; and wherein the first ground plane comprises corrugations at one or more edges that define the first region surrounding the launcher element. 2. The CPW apparatus of claim 1 , wherein the width of the launcher element is at least twice a length of the launcher element. 3. The CPW apparatus of claim 1 , wherein the substrate further comprises: a second metal layer proximate to the second surface, the second metal layer comprising: a second conductive trace comprising a second signal line; and a second ground plane co-planar with the second signal line; and a signal via extending between the first and second metal layers, wherein the signal via is connected to a second end of the first signal line at the first metal layer and to a first end of the second signal line at the second metal layer. 4. The CPW apparatus of claim 3 , further comprising: an integrated circuit (IC) die disposed at the second surface, the IC die comprising radio frequency (RF) circuitry and a bump coupled to a second end of the second signal line. 5. The CPW apparatus of claim 4 , wherein the substrate further comprises: a via fence, the via fence comprising metal vias disposed around perimeters of the first and second regions, and wherein at least a subset of the metal vias extend between the first ground plane and the second ground plane. 6. The CPW apparatus of claim 5 , wherein: the RF circuitry is configured to communicate RF signaling; and the metal vias of the via fence are spaced from each other at a distance not greater than 10% of a wavelength of a center frequency of a bandwidth of the RF signaling. 7. The CPW apparatus of claim 5 , further comprising: a waveguide adapter plate disposed at the first surface, the waveguide adapter plate having a first waveguide channel section aligned with the first region. 8. The CPW apparatus of claim 7 , further comprising: an antenna disposed at a surface of the waveguide adapter plate opposite of the substrate, the antenna comprising an antenna flange having a second waveguide channel section aligned with the first waveguide channel section. 9. The CPW apparatus of claim 1 , wherein the substrate further comprises: a via fence, the via fence comprising metal vias disposed around perimeters of the first and second region. 10. A coplanar waveguide (CPW) apparatus comprising: a substrate having a first surface and an opposing second surface, the substrate comprising: a first metal layer proximate to the first surface, the first metal layer comprising: a first conductive trace comprising a signal line coupled to a launcher element at a first end of the signal line; and a first ground plane co-planar with the first conductive trace, the first ground plane defining a substantially rectangular first region surrounding the launcher element and a second region surrounding the signal line, the first and second regions substantially devoid of conductive material; a via fence, the via fence comprising metal vias disposed around perimeters of the first and second region; and the launcher element having a substantially rectangular shape with a width greater than a width of the signal line at the first end; and a waveguide adapter plate disposed at the first surface, the waveguide adapter plate having a first waveguide channel section aligned with the first region. 11. The CPW apparatus of claim 10 , further comprising: an antenna disposed a surface of the waveguide adapter plate opposite of the substrate, the antenna comprising an antenna flange having a second waveguide channel section aligned with the first waveguide channel section. 12. A method for fabricating a coplanar waveguide (CPW) apparatus, the method comprising: fabricating a substrate of the CPW apparatus, the substrate having a first surface and an opposing second surface, the substrate comprising: a first metal layer proximate to the first surface, the first metal layer comprising: a first conductive trace comprising a first signal line coupled to a launcher element at a first end of the first signal line; and a first ground plane co-planar with the first conductive trace, the first ground plane defining a substantially rectangular first region surrounding the launcher element and a second region surrounding the first signal line, the first and second regions substantially devoid of conductive material; the launcher element having a substantially rectangular shape with a width greater than a width of the first signal line at the first end; and wherein fabricating the substrate comprises fabricating the first ground plane to include corrugations at one or more edges that define the first region surrounding the launcher element. 13. The method of claim 12 , wherein fabricating the substrate comprises fabricating the launcher element to have a width that is at least twice a length of the launcher element. 14. The method of claim 12 , wherein fabricating the substrate comprises fabricating: a second metal layer proximate to the second surface, the second metal layer comprising: a second conductive trace comprising a second signal line; and a second ground plane co-planar with the second signal line; and a signal via extending between the first and second metal layers, wherein the signal via is connected to a second end of the first signal line at the first metal layer and to a first end of the second signal line at the second metal layer. 15. A method for fabricating a coplanar waveguide (CPW) apparatus, the method comprising: fabricating a substrate of the CPW apparatus, the substrate having a first surface and an opposing second surface, the substrate comprising: a first metal layer proximate to the first surface, the first metal layer comprising: a first conductive trace comprising a signal line coupled to a launcher element at a first end of the signal line; a first ground plane co-planar with the first conductive trace, the first ground plane defining a substantially rectangular first region surrounding the launcher element and a second region surrounding the signal line, the first and second regions substantially devoid of conductive material; and the launcher element having a substantially rectangular shape with a width greater than a width of the signal line at the first end; and a via fence comprising metal vias disposed around perimeters of the first and second regions, and wherein at least a subset of the metal vias extend between the first ground plane and the second ground plane; mounting an integrated circuit (IC) die at the second surface, the IC die comprising radio frequency (RF) circuitry and a bump coupled to a second end of the signal line; and mounting a waveguide adapter plate at the first surface of the substrate, the waveguide adapter plate having a fi