Scattering device on an arrayed waveguide grating

What is claimed is: 1. An optical device, comprising: a substrate; an arrayed waveguide grating provided on the substrate, the arrayed waveguide grating having first and second slabs; a plurality of first waveguides extending from the first slab, the plurality of first waveguides supplying respective first optical signals to the first slab; a plurality of second waveguides extending from the second slab, the plurality of second waveguides supplying respective second optical signals to the second slab; a third waveguide extending from the second slab, the third waveguide outputting a third optical signal from the second slab, the third optical signal including the first optical signals; a fourth waveguide extending from the first slab, the fourth waveguide outputting a fourth optical signal from the first slab, the fourth optical signal including the second optical signals; one or more first scattering devices optically coupled to a portion of an edge of the first slab between the plurality of first waveguides and the fourth waveguide; and one or more second scattering devices optically coupled to a portion of an edge of the second slab between the plurality of second waveguides and the third waveguide. 2. The optical device in accordance with claim 1 , where the one or more first scattering devices are configured to receive a fifth optical signal from the first slab and where the one or more second scattering devices are configured to receive a sixth optical signal from the second slab, where the third optical signal and the fourth optical signal are associated with fundamental order optical signals and the fifth optical signal and sixth optical signal are associated with higher order optical signals. 3. The optical device in accordance with claim 2 , the one or more first scattering devices each having a first region to receive the fifth optical signal and a second region having a tapered end configured to scatter the fifth optical signal; and the one or more second scattering devices each having a first region to receive the sixth optical signal and a second region having a tapered end configured to scatter the sixth optical signal. 4. The optical device in accordance with claim 2 , the one or more first scattering devices each having a first region to receive the fifth optical signal, a second region having a tapered end configured to scatter the fifth optical signal and output a portion of the fifth optical signal, and a third region having a spiraled section configured to receive the portion of the fifth optical signal and scatter the portion of the fifth optical signal; and the one or more second scattering devices each having a first region to receive the sixth optical signal, a second region having a tapered end configured to scatter the sixth optical signal and output a portion of the sixth optical signal, and a third region having a spiraled section configured to scatter the portion of the sixth optical signal. 5. The optical device in accordance with claim 2 , the one or more first scattering devices each having: at least one first multimode waveguide section to receive the fifth optical signal, the at least one first multimode waveguide section being configured to cause the fifth optical signal to reflect within the at least one first multimode waveguide section to scatter the fifth optical signal; and the one or more second scattering devices each having: at least one second multimode waveguide section to receive the sixth optical signal, the at least one second multimode waveguide section being configured to cause the sixth optical signal to reflect within the at least one second multimode waveguide section to scatter the sixth optical signal. 6. The optical device in accordance with claim 2 , the one or more first scattering devices each having: a first region to receive the fifth optical signal, a second region having a tapered end configured to scatter the fifth optical signal and output a portion of the fifth optical signal, and a third region having at least one first multimode waveguide section to receive the portion of the fifth optical signal, the at least one first multimode waveguide section being configured to cause the portion of the fifth optical signal to reflect within the at least one first multimode waveguide section to scatter the portion of the fifth optical signal; and the one or more second scattering devices each having: a first region to receive the sixth optical signal, a second region having a tapered end configured to scatter the sixth optical signal and output a portion of the sixth optical signal, and a third region having at least one second multimode waveguide section to receive the sixth optical signal, the at least one second multimode waveguide section being configured to cause the portion of the sixth optical signal to reflect within the at least one second multimode waveguide section to scatter the portion of the sixth optical signal. 7. The optical device in accordance with claim 1 , where each of the respective first optical signals has a corresponding one of a plurality of wavelengths, and each of the respective second optical signals has a corresponding one of the plurality of wavelengths. 8. The optical device in accordance with claim 1 , further comprising: one or more lasers configured to provide the respective first optical signals and the respective second optical signals. 9. The optical device in accordance with claim 1 , further comprising: a light emitting diode or a super-luminescent light emitting diode configured to provide the respective first optical signals and the respective second optical signals. 10. The optical device in accordance with claim 1 , where the third optical signal includes first components having a first polarization, and the fourth optical signal includes second components having a second polarization, the optical device further comprising: a rotator comprising: an input that receives the third optical signal associated with the first components, the rotator being configured to rotate the first polarization such that each of the first components has the second polarization, the rotator outputting the first components as rotated first components; and a polarization beam combiner configured to receive the rotated first components and the second components to generate a combined optical signal and configured to provide the combined optical signal to a receiver component. 11. The optical device in accordance with claim 10 , where the first polarization is a transverse electric (TE) polarization and the second polarization is a transverse magnetic (TM) polarization. 12. The optical device in accordance with claim 10 , where the first polarization is a transverse magnetic (TM) polarization and the second polarization is a transverse electric (TE) polarization. 13. An optical device, comprising: a substrate; an arrayed waveguide grating provided on the substrate, the arrayed waveguide grating having first and second slabs; a first waveguide extending from the first slab, the first waveguide supplying a first optical signal to the first slab; a second waveguide extending from the second slab, the second waveguide supplying a second optical signal to the second slab; a plurality of third waveguides extending from the second slab, the plurality of third waveguides outputting respective third optical signals from the second slab, the respective third optical signals being associated with the first optical signal; a plurality of fourth waveguides extending from the first slab, the plurality of fourth waveguides outputting respective fourth optical s