Guided wave coupler, coupling module and methods for use therewith

What is claimed is: 1. A waveguide device comprising: a first coupler configured to: guide first electromagnetic waves conveying a first data stream to a transmission medium, wherein the first electromagnetic waves propagate along the first coupler via at least one first guided wave mode; and generate, responsive to the first electromagnetic waves, third electromagnetic waves conveying the first data stream that propagate at non-optical frequencies along the transmission medium via a non-fundamental mode not included in the at least one first guided wave mode; and a second coupler configured to: receive second electromagnetic waves conveying a second data stream from the transmission medium that propagate along the transmission medium at non-optical frequencies in an opposite longitudinal direction from the third electromagnetic waves, wherein the second electromagnetic waves propagate along the transmission medium via the non-fundamental mode, wherein the second electromagnetic waves and the third electromagnetic waves have corresponding azimuthal electromagnetic field patterns that vary by an angular displacement; and generate, responsive to the second electromagnetic waves, fourth electromagnetic waves conveying the second data stream, wherein the first electromagnetic waves propagate along the second coupler via the at least one first guided wave mode. 2. The waveguide device of claim 1 , wherein the at least one first guided wave mode includes only a fundamental mode. 3. The waveguide device of claim 1 , wherein the at least one first guided wave mode has a circular field pattern and wherein the non-fundamental mode has a non-circular field pattern. 4. The waveguide device of claim 1 , wherein the first coupler is non-coaxially aligned with the transmission medium. 5. The waveguide device of claim 1 , wherein the second coupler is non-coaxially aligned with the transmission medium. 6. The waveguide device of claim 1 , wherein the first coupler and the second coupler each comprise a non-conductive plastic waveguide. 7. The waveguide device of claim 1 , wherein the first coupler includes a non-conductive dielectric waveguide having a tapered, rounded or beveled end that terminates at a junction with the transmission medium. 8. The waveguide device of claim 1 , wherein the second coupler includes a non-conductive dielectric waveguide having a tapered, rounded or beveled end that terminates at a junction with the transmission medium. 9. The waveguide device of claim 1 , wherein the first coupler includes a first non-conductive dielectric waveguide having a first end that terminates at a first junction with the transmission medium, wherein the first junction has a first azimuthal orientation to the transmission medium, wherein the second coupler includes a second non-conductive dielectric waveguide having a second end that terminates at a second junction with the transmission medium, wherein the second junction has a second azimuthal orientation to the transmission medium. 10. The waveguide device of claim 9 , wherein the first junction is spaced a longitudinal distance from the second junction along the transmission medium. 11. The waveguide device of claim 9 , wherein the first junction is spaced an azimuthal angle from the second junction along the transmission medium. 12. The waveguide device of claim 1 , wherein the first coupler is non-coaxially aligned with a longitudinal axis of the transmission medium according to a first azimuthal orientation to the transmission medium, and wherein the second coupler is non-coaxially aligned with the longitudinal axis of the transmission medium according to a second azimuthal orientation to the transmission medium. 13. The waveguide device of claim 1 , wherein the first coupler is tangentially aligned with a longitudinal axis of the transmission medium according to a first azimuthal orientation to the transmission medium, and wherein the second coupler is tangentially aligned with the longitudinal axis of the transmission medium according to a second azimuthal orientation to the transmission medium. 14. A waveguide device comprising: means for guiding first electromagnetic waves conveying a first data stream to a transmission medium, wherein the first electromagnetic waves propagate along the means for guiding via at least one first guided wave mode, wherein the means for guiding generates, responsive to the first electromagnetic waves, third electromagnetic waves conveying the first data stream that propagate at non-optical frequencies along the transmission medium via a non-fundamental mode not included in the at least one first guided wave mode; and means for receiving second electromagnetic waves conveying a second data stream from the transmission medium that propagate along the transmission medium at non-optical frequencies in an opposite longitudinal direction from the third electromagnetic waves, wherein the second electromagnetic waves propagate along the transmission medium via the non-fundamental mode, wherein the second electromagnetic waves and the third electromagnetic waves have corresponding azimuthal electromagnetic field patterns that vary by an angular displacement, wherein the means for receiving generates, responsive to the second electromagnetic waves, fourth electromagnetic waves conveying the second data stream, wherein the first electromagnetic waves propagate along the means for receiving via the at least one first guided wave mode. 15. The waveguide device of claim 14 , wherein the at least one first guided wave mode includes only a fundamental mode. 16. The waveguide device of claim 14 , wherein the at least one first guided wave mode has a circular field pattern and wherein the non-fundamental mode has a non-circular field pattern. 17. The waveguide device of claim 14 , wherein the means for guiding is non-coaxially aligned with the transmission medium. 18. The waveguide device of claim 14 , wherein the means for receiving is non-coaxially aligned with the transmission medium. 19. The waveguide device of claim 14 , wherein the means for guiding and the means for receiving each comprise a non-conductive plastic waveguide. 20. A method comprising: guiding, via a first coupler, first electromagnetic waves conveying a first data stream to a transmission medium, wherein the first electromagnetic waves propagate along the first coupler via at least one first guided wave mode; and generating, via the first coupler and responsive to the first electromagnetic waves, third electromagnetic waves conveying the first data stream that propagate at non-optical frequencies along the transmission medium via a non-fundamental mode not included in the at least one first guided wave mode; and receiving, via a second coupler, second electromagnetic waves conveying a second data stream from the transmission medium that propagate along the transmission medium at non-optical frequencies in an opposite longitudinal direction from the third electromagnetic waves, wherein the second electromagnetic waves propagate along the transmission medium via the non-fundamental mode, wherein the second electromagnetic waves and the third electromagnetic waves have corresponding azimuthal electromagnetic field patterns that vary by an angular displacement; and generating, via the second coupler and responsive to the second electromagnetic waves, fourth electromagnetic waves conveying the second data stream, wherein the first electromagnetic waves propagate along the second coupler via