Optoelectronic device and array thereof

What is claimed is: 1. A photonic chip, comprising: a waveguide; and an optically active device comprising a portion of the waveguide, the waveguide having: a first end at a first edge of the photonic chip; and a second end at the first edge of the photonic chip, the waveguide having, at a point between the first end and the second end, a curvature having a magnitude greater than 5/mm, the waveguide having, everywhere between the first end and the second end, a rate of change of curvature having a magnitude not exceeding 10,000/mm 2 , the waveguide has a first facet at the first end, and a second facet at the second end, the first facet is: oblique to the waveguide at the first end; and oblique to the first edge, a fundamental mode of the waveguide at the first end corresponds to a first free space beam outside the first facet, the first free space beam having a first centerline, a fundamental mode of the waveguide at the second end corresponds to a second free space beam outside the second facet, the second free space beam having a second centerline, and the first centerline is within 10 degrees of being parallel to the second centerline. 2. The photonic chip of claim 1 , wherein the area of a rectangle containing the waveguide is less than 1000 square microns. 3. The photonic chip of claim 1 , wherein the length of a rectangle containing the waveguide is less than 200 microns. 4. The photonic chip of claim 1 , wherein the width of a rectangle containing the waveguide is less than 80 microns. 5. The photonic chip of claim 1 , wherein the waveguide includes a first tapered portion, having a wide end nearer the first end, and a narrow end nearer the second end. 6. The photonic chip of claim 5 , wherein the wide end is within 10 microns of the first end. 7. The photonic chip of claim 6 , wherein the length of the first tapered portion is within 30% of one third of the length of the waveguide. 8. The photonic chip of claim 7 , wherein the waveguide has a first width at the wide end and a second width at the narrow end, and the first tapered portion has a length of at least 8 times the difference between the first width and the second width. 9. The photonic chip of claim 8 , wherein the curvature of the waveguide at the first end is less than 0.1/mm. 10. The photonic chip of claim 9 , wherein the curvature of the waveguide at the second end is less than 0.1/mm. 11. The photonic chip of claim 10 , wherein the curvature at a point in the middle 80% of the waveguide is less than 0.1/mm. 12. The photonic chip of claim 1 , wherein the waveguide is, at every point along the waveguide, within 3 microns of an adiabatic curve. 13. The photonic chip of claim 1 , wherein the greatest value of the magnitude of the rate of change of curvature of the waveguide is within 40% of the average value of the magnitude of the rate of change of curvature of the waveguide. 14. The photonic chip of claim 1 , wherein the waveguide is, at every point along the waveguide, within 3 microns of a Bezier spline. 15. The photonic chip of claim 1 , wherein the waveguide has, at a first point along its length, an asymmetric profile. 16. The photonic chip of claim 1 , wherein the second centerline is within 10 degrees of a direction that is the mirror image of the direction of the first centerline. 17. The photonic chip of claim 16 , wherein: the first centerline is within 10 degrees of being perpendicular to the first edge, and the second centerline is within 10 degrees of being perpendicular to the first edge. 18. The photonic chip of claim 1 , wherein the total direction change within the waveguide is less than 175 degrees. 19. The photonic chip of claim 18 , wherein the total direction change within the waveguide is less than 155 degrees. 20. A photonic chip, comprising: a waveguide; and an optically active device comprising a portion of the waveguide, the waveguide having: a first end at a first edge of the photonic chip; and a second end at the first edge of the photonic chip, the waveguide having, at a point between the first end and the second end, a curvature having a magnitude greater than 5/mm, and the waveguide having, everywhere between the first end and the second end, a rate of change of curvature having a magnitude not exceeding 10,000/mm 2 , wherein the waveguide has, at a first point along its length, an asymmetric profile, and wherein at the first point, the waveguide has a first sidewall having a first height and a second sidewall having a second height, the second height being at least 30% greater than the first height.