Athermal silicon photonics wavelength locker and meter

Therefore, the following is claimed: 1. A wavelength locker, comprising: a first multimode interference (MMI) coupler, at least one input of the first MMI coupler being coupled to a coherent source of light; a first waveguide having an input coupled to a first output of the first MMI coupler; a second waveguide having an input coupled to a second output of the first MMI coupler; a second MMI coupler having a plurality of inputs and a plurality of outputs, a first of the plurality of inputs of the second MMI coupler being coupled to an output of the first waveguide, and a second of the plurality of inputs of the second MMI coupler being coupled to an output of the second waveguide; and an interference pattern selector configured to: receive a plurality of signals corresponding, respectively, to light output from the plurality of outputs of the second MMI coupler, the plurality of outputs of the second MMI coupler comprising at least three outputs; and select a pair of the plurality of outputs of the second MMI coupler based on power levels of individual ones of the plurality of outputs and a predetermined frequency of a telecommunications frequency grid. 2. The wavelength locker according to claim 1 , wherein the interference pattern selector is configured to select the pair of the plurality of outputs based on the predetermined frequency of the telecommunications frequency grid and a predetermined phase shift. 3. The wavelength locker according to claim 2 , wherein the predetermined phase shift is about 180 degrees. 4. The wavelength locker according to claim 1 , wherein the first waveguide comprises a rib waveguide having a first length and the second waveguide comprises a wire waveguide having a second length. 5. The wavelength locker according to claim 4 , wherein the first length is greater than the second length. 6. The wavelength locker according to claim 1 , wherein the first waveguide, the second waveguide, and the second MMI coupler operate as an interferometer at a free spectral range based on the telecommunications frequency grid. 7. The wavelength locker according to claim 1 , further comprising a plurality of photodetectors configured to convert the light output from the plurality of outputs of the second MMI coupler to the plurality of signals for the interference pattern selector. 8. The wavelength locker according to claim 1 , further comprising: a third waveguide having an input coupled to a third output of the first MMI coupler; a fourth waveguide having an input coupled to a fourth output of the first MMI coupler; and a third MMI coupler having a plurality of inputs and a plurality of outputs, a first of the plurality of inputs of the third MMI coupler being coupled to an output of the third waveguide, and a second of the plurality of inputs of the third MMI coupler being coupled to an output of the fourth waveguide. 9. The wavelength locker according to claim 8 , wherein the interference pattern selector is further configured to: receive a plurality of signals corresponding, respectively, to light output from a plurality of outputs of the third MMI coupler; and select a pair of the plurality of outputs of the third MMI coupler based on another predetermined frequency of a telecommunications frequency grid. 10. A method of wavelength locking, comprising: guiding light along a first waveguide; guiding light along a second waveguide, at least one of the first waveguide or the second waveguide introducing a propagation delay; merging the light from the first waveguide with the light from the second waveguide in a multimode interference (MMI) coupler to generate an interference pattern of light; outputting, from a plurality of outputs of the MMI coupler, a plurality of phase shifted versions of the interference pattern, the plurality of outputs of the MMI coupler comprising at least three outputs; converting the plurality of phase shifted versions of the interference pattern into a plurality of signals; and selecting, by a processing circuit, a pair of the plurality of outputs of the MMI coupler based on power levels of individual ones of the plurality of outputs of the MMI coupler and a predetermined frequency of a telecommunications frequency grid. 11. The method of wavelength locking according to claim 10 , wherein the first waveguide comprises a rib waveguide having a first length and the second waveguide comprises a wire waveguide having a second length. 12. The method of wavelength locking according to claim 11 , wherein the first waveguide, the second waveguide, and the MMI coupler operate as an interferometer at a free spectral range based on the telecommunications frequency grid. 13. A wavelength locker, comprising: a first waveguide to guide light; a second waveguide to guide light, at least one of the first waveguide or the second waveguide introducing a propagation delay; a multimode interference (MMI) coupler having a plurality of inputs and a plurality of outputs, a first of the plurality of inputs being coupled to an output of the first waveguide, and a second of the plurality of inputs being coupled to an output of the second waveguide, the plurality of outputs of the MMI coupler comprising at least three outputs; and an interference pattern selector configured to: receive a plurality of signals corresponding, respectively, to light output from a plurality of outputs of the MMI coupler; and select a pair of the plurality of outputs of the MMI coupler based on power levels of individual ones of the plurality of outputs and a predetermined frequency of a telecommunications frequency grid. 14. The wavelength locker according to claim 13 , wherein the first waveguide comprises a rib waveguide having a first length, the second waveguide comprises a wire waveguide having a second length, and the first length is greater than the second length. 15. The wavelength locker according to claim 13 , wherein the first waveguide, the second waveguide, and the MMI coupler operate as an interferometer at a free spectral range based on the telecommunications frequency grid. 16. The wavelength locker according to claim 13 , further comprising a plurality of photodetectors configured to convert the light output from the plurality of outputs of the second MMI coupler to the plurality of signals for the interference pattern selector.