Window assembly with transparent regions having a performance enhancing slit formed therein

What is claimed is: 1. A window assembly for a vehicle, said window assembly comprising: a substrate that is substantially transparent and has a surface and a perimeter; a transparent layer that is disposed on said surface and comprises a metal compound such that said transparent layer is electrically conductive; said transparent layer defining a first region having a first periphery and a second region having a second periphery, each of said first and second peripheries including an outer edge and opposing inner edge, and one side edge and an opposing side edge, said first and second regions being substantially congruent to one another; an outer region being electrically non-conductive and formed on said substrate between said perimeter of said substrate and each of said first and second peripheries; a section cut that is devoid of said transparent layer and defined between said inner edge of each of said first and second peripheries and with said section cut being defined from a first end to an opposing second end and with said second cut opening into said outer region at each of said first and second ends such that said section cut separates said first and second regions from one another; and a feeding arrangement coupled to said first and second regions and being configured to energize said first and second regions; wherein said first region defines a first performance enhancing slit that is devoid of said transparent layer and extending into said first region from said first periphery; and wherein said second region defines a second performance enhancing slit that is devoid of said transparent layer and extending into said second region from said second periphery. 2. The window assembly of claim 1 wherein said inner edge of said first periphery and said inner edge of said second periphery each have a linear configuration and extend substantially parallel to one another. 3. The window assembly of claim 1 wherein said perimeter of said substrate includes opposing upper and lower perimeter edges, and opposing side perimeter edges, wherein said inner edge of each of said first and second peripheries is disposed substantially orthogonal to said upper and lower perimeter edges. 4. The window assembly of claim 3 wherein an axis extends between said upper and lower perimeter edges of said substrate and divides said perimeter of said substrate into two substantially similar areas, and wherein said inner edge of said first periphery and said inner edge of said second periphery are equally spaced from said axis. 5. The window assembly of claim 4 wherein said first region defines a first slit and said second region defines a second slit, wherein said first and second slits are positioned symmetrically in relation to one another with respect to said axis. 6. The window assembly of claim 5 wherein said first region further defines a third slit, and said second region further defines a fourth slit, each of said first and third slits extend into said first region from no more than one location on said first periphery, each of said second and fourth slits extend into said second region from no more than one location on said second periphery, said first and third slits are positioned symmetrically in relation to said second and fourth slits with respect to said axis, and wherein each of said slits are oriented substantially parallel to said axis, wherein; said first slit extends from one of said side edges of said first periphery; said second slit extends from one of said side edges of said second periphery; said third slit extends from said opposing side edge of said first periphery; and said fourth slit extends from said opposing side edge of said second periphery. 7. The window assembly of claim 5 wherein said first region further defines a third slit, and said second region further defines a fourth slit, each of said first and third slits extend into said first region from no more than one location on said first periphery, each of said second and fourth slits extend into said second region from no more than one location on said second periphery, said first and third slits are positioned symmetrically in relation to said second and fourth slits with respect to said axis, and wherein each of said slits are oriented substantially orthogonal to said axis, wherein; said first slit extends from said outer edge of said first periphery and is disposed closer to one of said side edges of said first periphery than said opposing side edge of said first periphery; said second slit extends from said outer edge of said second periphery and is disposed closer to one of said side edges of said second periphery than said opposing side edge of said second periphery; said third slit extends from said outer edge of said first periphery and is disposed closer to said opposing side edge of said first periphery than said side edge of said first periphery; and said fourth slit extends from said outer edge of said second periphery and is disposed closer to said opposing side edge of said second periphery than said side edge of said second periphery. 8. The window assembly of claim 1 wherein said first slit extends into said first region from no more than one location on said first periphery, and wherein said second slit extends into said second region from no more than one location on said second periphery. 9. The window assembly of claim 1 wherein said first slit extends substantially parallel to at least one of said side edges of said first periphery, and wherein said second slit extends substantially parallel to at least one of said side edges of said second periphery. 10. The window assembly of claim 1 wherein said first slit extends substantially parallel to one of said outer and inner edges of first said periphery, and wherein said second slit extends substantially parallel to one of said outer and inner edges of said second periphery. 11. The window assembly of claim 1 wherein said section cut has a linear configuration as defined by said first and second peripheries, wherein said first and second slits are positioned symmetrically in relation to one another with respect to said linear configuration of said section cut. 12. The window assembly of claim 1 wherein said substrate comprises an exterior substrate having an inner surface and an outer surface and an interior substrate disposed adjacent said exterior substrate having an inner surface and an outer surface and wherein said transparent layer is disposed between said inner surface of said interior substrate and said inner surface of said exterior substrate. 13. The window assembly of claim 1 wherein said first and second regions are each configured to receive a radio frequency signal and to collectively operate in diversity such that an optimal one of said radio frequency signals received by said first and second regions can be selected. 14. The window assembly of claim 1 wherein said first and second slits are each configured to operate as at least one of an impedance matching element and a radiation pattern altering element. 15. The window assembly of claim 1 wherein said first slit has a linear configuration as defined by said transparent layer of said first region and wherein said second slit has a linear configuration as defined by said transparent layer of said second region and wherein said transparent layer defining said linear configuration of each of said first and second slits is uniformly spaced by less than 2 mm. 16. The window assembly of claim 1 wherein said first and second regions are electrically disconnected from one another on s