Photonic integrated circuit

What is claimed is: 1. Optical receiver, comprising: a substrate; a local oscillator (LO) laser provided on the substrate, the LO laser having first and second sides and outputting first light from the first side and second light from the second side, the first light output from the first side of the laser has a first power and the second light output from the second side has a second power; a first plurality of photodiodes receiving first mixing products including portions of the first light and portions of a first optical signal; a second plurality of photodiodes receiving second mixing products including portions of the second light and portions of a second optical signal; a first optical path extending from the first side of the LO laser to the first plurality of photodiodes and a second optical path extending from the second side of the LO laser to the second plurality of photodiodes, the first path having an associated first optical loss and the second path having an associated second optical loss, wherein the first light has a first power and the second light has a second power at the first and second sides, respectively, such that portions of the first light received by the first plurality of photodiodes have substantially the same power as portions of the second light received by the second plurality of photodiodes. 2. An optical receiver in accordance with claim 1 , further including an optical coupler optically communicating with the first side of the LO laser and receiving the first light. 3. An optical receiver in accordance with claim 2 , wherein the optical coupler has an associated optical loss, the second power of the second light output from the second side being greater than the first power of the first light output from the first side, the second power offsetting the optical loss. 4. An optical receiver in accordance with claim 2 , wherein the coupler has first and second outputs, the first plurality of photodiodes optically communicating with the first output, the optical receiver further including a device coupled to the second output. 5. An optical receiver in accordance with claim 4 , wherein the device includes a waveguide that disperses a portion of the first light supplied from the second output of the coupler. 6. An optical receiver in accordance with claim 2 , wherein the coupler is a multimode interference (MMI) coupler. 7. An optical receiver in accordance with claim 1 , wherein the LO laser includes a first reflector adjacent the first side and a second reflector adjacent the second sides, the first reflector having a first reflectivity and the second reflector having a second reflectivity. 8. An optical receiver in accordance with claim 7 , wherein the first reflector has a first plurality of grating teeth and the second reflector has a second plurality of grating teeth, a number of the first plurality of grating teeth being different than a number of the second plurality of grating teeth. 9. A receiver in accordance with claim 1 , further including a coupler coupled along the second path, the coupler having a first output and a second output, the first output optically communicating with a control circuit that monitors the second light, and the second output optically communicates with the second plurality of photodiodes. 10. A receiver in accordance with claim 9 , wherein the coupler is a first coupler further including: a variable optical attenuator optically communicating with the first output of the first coupler; and a second coupler having an input that optically communicates with variable optical attenuator and an output that optically communicates with the control circuit. 11. A receiver in accordance with claim 9 , further including: a delay line interferometer provided on the substrate, the delay line interferometer having an input that optically communicates with the first output of the coupler and an output; and a photodetector that optically communicates with the output of the delay line interferometer, wherein a digital signal processor offsets effects of phase noise in the first and second lights based on an output of the photodetector. 12. An optical receiver in accordance with claim 1 , further including a first optical hybrid circuit provided along the first optical path and a second optical hybrid circuit provided along the second optical path. 13. An optical receiver, comprising: a local oscillator (LO) laser having first and second sides and outputting first light from the first side and second light from the second side; a coupler that receives the first light, the coupler having first and second outputs, the first output supplying a first portion of the first light and the second output supplying a second portion of the first light; a first optical hybrid that receives the first portion of the first light; a second optical hybrid that receives the second portion of the first light; and a control circuit optically communicating with the second side of the LO laser, the control circuit receiving at least a portion of the second light and monitoring the second light. 14. An optical receiver in accordance with claim 13 , wherein the LO laser includes a first reflector adjacent the first side and a second reflector adjacent the second side, the first reflector having a reflectivity that is less than a reflectivity of the second reflector. 15. An optical receiver, comprising: a local oscillator (LO) laser that output light; a first coupler that receives the light, the coupler having first and second outputs, the first output supplying a first portion of the light and the second output supplying a second portion of the light; a second coupler having an input that receives the first portion of the light, the second coupler having a first output that supplies a third portion of the light and a second output that supplies a fourth portion of the light; a first optical hybrid circuit that receives the third portion of the light; a second optical hybrid circuit that receives the fourth portion of the light; and a control circuit optically communicating with the second output of the first coupler, the control circuit receiving at least a portion of the second portion of the light, the control circuit monitoring the second portion of the light.