Optical coupler having segmented waveguides for coupling electromagnetic field

The invention claimed is: 1. An optical coupler, comprising: a semiconductor substrate; a first cladding layer arranged at least partly over the semiconductor substrate; a second cladding layer arranged at least partly over the first cladding layer with respect to the semiconductor substrate; a facet in the first cladding layer and in the second cladding layer, the facet extending substantially in a lateral direction; and a plurality of waveguides arranged over the first cladding layer with respect to the semiconductor substrate, wherein the plurality of waveguides comprises: a first waveguide comprising a plurality of first spaced-apart segments arranged substantially along a longitudinal direction; a second waveguide; and a third waveguide spaced farther from the facet longitudinally than at least one of the first waveguide and the second waveguide; and wherein at least two of the waveguides of the plurality of waveguides: are at least partly encapsulated in the second cladding layer; have respective refractive indices higher than a refractive index of the second cladding layer; and are spaced apart from each other along the lateral direction. 2. The optical coupler according to claim 1 , wherein: the semiconductor substrate comprises crystalline silicon or a III-V semiconductor; the first cladding layer comprises buried oxide; the second cladding layer comprises silicon oxide; or at least one of the plurality of waveguides comprises silicon. 3. The optical coupler according to claim 1 , wherein: at least some of the first spaced-apart segments are arranged to form a subwavelength grating (SWG); the at least some of the first spaced-apart segments have substantially equal extents in the lateral direction and in a third direction that is substantially perpendicular to both the lateral direction and the longitudinal direction; the at least some of the first spaced-apart segments are spaced apart in the longitudinal direction substantially evenly; the at least some of the first spaced-apart segments have substantially equal lengths (L) in the longitudinal direction; and the at least some of the first spaced-apart segments are separated from each other by gaps extending in the longitudinal direction a distance substantially equal to a grating period (Λ) minus the lengths L. 4. The optical coupler according to claim 1 , wherein at least: the first waveguide is tapered along at least part of its length; or the third waveguide is tapered along at least part of its length. 5. The optical coupler according to claim 1 , wherein the first waveguide has a substantially constant lateral extent along a portion of its length, the portion extending substantially in the longitudinal direction substantially from the facet. 6. The optical coupler according to claim 5 , wherein the second waveguide is tapered along a portion of its length, the portion of the length of the second waveguide extending substantially from the facet. 7. The optical coupler according to claim 1 , wherein the second waveguide comprises a plurality of second spaced-apart segments arranged substantially along the longitudinal direction. 8. The optical coupler according to claim 7 , wherein the second waveguide is tapered along at least a portion of its length. 9. The optical coupler according to claim 7 , wherein at least some of the second spaced-apart segments are arranged to form a subwavelength grating (SWG) configured to entrain electromagnetic radiation having a wavelength shorter than one hundred microns. 10. The optical coupler according to claim 9 , wherein at least some of the first spaced-apart segments are arranged to form a subwavelength grating (SWG) configured to entrain electromagnetic radiation having the wavelength shorter than one hundred microns. 11. The optical coupler according to claim 1 , wherein: the plurality of waveguides further comprises a fourth waveguide spaced apart longitudinally from the facet; the fourth waveguide comprises a plurality of third spaced-apart segments arranged substantially along the longitudinal direction; a longitudinal axis of the fourth waveguide substantially coincides with a longitudinal axis of the fourth waveguide; and the fourth waveguide is arranged longitudinally between the facet and the third waveguide. 12. The optical coupler according to claim 11 , wherein at least some of the third spaced-apart segments are arranged to form a subwavelength grating (SWG) configured to entrain electromagnetic radiation having a wavelength shorter than one hundred microns. 13. The optical coupler according to claim 1 , wherein: the semiconductor substrate comprises monocrystalline silicon; the first cladding layer comprises buried oxide; the second cladding layer comprises silicon oxide; or at least one waveguide of the plurality of waveguides comprises silicon nitride. 14. The optical coupler according to claim 1 , further comprising an active unit optically connected with the third waveguide. 15. An assembly comprising: a semiconductor photonic device having: a substrate; a plurality of facets; and a plurality of optical couplers associated with respective facets of the plurality of facets; and a plurality of single-mode optical fibers disposed in a splice configuration with respect to respective facets of the plurality of facets; wherein each optical coupler of the plurality of optical couplers comprises: a respective first waveguide spaced apart from the respective facet of the plurality of facets; and means for coupling an electromagnetic field incident on the respective facet towards the respective first waveguide as the electromagnetic field proceeds into the semiconductor photonic device. 16. The assembly according to claim 15 , further comprising a V-groove array configured to retain the single-mode optical fibers in position with respect to the respective facets. 17. The assembly according to claim 15 , wherein each optical coupler comprises: a respective second waveguide; and a respective third waveguide; wherein the respective second waveguide, the respective first waveguide, and the respective third waveguide of each optical coupler are spaced apart in a lateral direction of that optical coupler; and at least one of the respective second waveguide, the respective first waveguide, and the respective third waveguide of each optical coupler comprises a plurality of segments spaced apart in a longitudinal direction of that optical coupler. 18. The assembly according to claim 15 , wherein: the semiconductor photonic device comprises a cladding layer; and the respective first waveguides and the respective second waveguides: are at least partly encapsulated in the cladding layer; and have respective indices of refraction that are higher than an index of refraction of the cladding layer. 19. An assembly, wherein: the assembly comprises a semiconductor photonic device having: a plurality of facets; and a plurality of optical couplers associated with respective facets of the plurality of facets; each optical coupler of the plurality of optical couplers comprises: a respective first waveguide; a respective second waveguide spaced apart from the respective facet; and a respective third waveguide; and in each optical coupler: the respective first waveguide, the respective second waveguide, and the respective third waveguide are spaced apart in a lateral direction of that optical coupler; and at least one of the respective first waveguide