Beam direction sensor

What is claimed is: 1. A direction sensor comprising: a plurality of sensor cells, wherein each of the sensor cells comprises: a light sensor; and a grating tuned to couple incident light having a first wavelength into the light sensor more strongly when the incident light is incident on the grating at the direction corresponding to the sensor cell than when the incident light is incident on the grating at the different directions corresponding to others of the sensor cells, wherein the grating of each sensor cell of the plurality of sensor cells has a grating pattern tuned to a direction of incident light different than a grating pattern of the grating of other sensor cells of the plurality of sensor cells, the grating pattern of each sensor cell being tuned by having a different two-dimensional grating pattern than the grating pattern of each other sensor cell of the plurality of sensor cells. 2. The sensor of claim 1 , wherein each of the sensor cells further comprises a waveguide into which the grating directs diffracted light, wherein the grating and the waveguide together act as a guided-mode resonances filter. 3. The sensor of claim 1 , wherein the sensor cells are arranged in an array and are parts of an integrated circuit chip. 4. The sensor of claim 1 , wherein the plurality of different angles includes angles of rotation about different axes. 5. The sensor of claim 1 , wherein in each of the sensor cells, the grating provides a resonant coupling into the light sensor. 6. The sensor of claim 5 , wherein respective widths of the resonant coupling of the sensor cells differ. 7. The sensor of claim 1 , wherein the gratings of the sensor cells have different one-dimensional patterns. 8. The sensor of claim 1 , wherein each of the light sensors in the sensor cells comprises a photodiode. 9. The sensor of claim 1 , further comprising a mounting to which the sensor cells are attached, wherein the mounting is capable of tilting the sensor cells as a unit. 10. The sensor of claim 9 , wherein the mounting has two rotational degrees of freedom for rotation of the sensor cells. 11. The sensor of claim 1 , further comprising a peripheral circuit coupled to receive respective sense signals from the sensor cells, wherein the peripheral circuit generates a measurement signal indicating a measured direction of a beam incident on the sensor cells. 12. The sensor of claim 11 , wherein the peripheral circuit determines the measured direction based on which of the sensor cells contains light sensors that detect light corresponding to resonant coupling of the incident light into the sensor cells. 13. The sensor of claim 11 , wherein the measured direction is the direction corresponding to one of the sensor cells identified as detecting a highest intensity of light coupled into the sensor cells. 14. The sensor of claim 1 , wherein the measurement signal from the peripheral circuits indicates the direction that corresponds to the sensor cell that produced the sense signal that is strongest. 15. The sensor of claim 1 , wherein the peripheral circuit uses the sense signals in a process that interpolates between the directions corresponding to the sensor cells to thereby determine the measured direction. 16. A process for measuring beam direction, comprising: directing a beam having a first wavelength and having a direction to be measured at a plurality of sensor cells, wherein each of the sensor cells comprises: a light sensor; and a grating that couples incident light from the beam into the light sensor more strongly when the incident light is incident on the grating at the direction corresponding to the sensor cell than when the incident light is incident on the grating at the different directions corresponding to others of the sensor cells, wherein the grating of each sensor cell of the plurality of sensor cells has a grating pattern tuned to a direction of incident light different than a grating pattern of the grating of other sensor cells of the plurality of sensor cells, the grating pattern of each sensor cell being tuned by having a different two-dimensional grating pattern than the grating pattern of each other sensor cell of the plurality of sensor cells; identifying one or more of the sensor cells that contain respective light sensors that detect light corresponding to resonant couplings of the incident light into the sensor cells; and generating a measured direction for the beam based on the different directions corresponding to one or more sensor cells identified. 17. The process of claim 16 , wherein identifying one or more of the sensor cells comprises identifying one of the sensor cells containing a light sensor detecting a highest intensity of light, and the measured direction is the direction corresponding to the sensor cell identified.