Beam steering optical phased arrays

What is claimed is: 1. A beam steering optical phased array (beam steering OPA), comprising: an optical signal distributor, the optical signal distributor including a plurality of output terminals, the optical signal distributor configured to divide and output a plurality of optical signals through separate, respective output terminals of the plurality of output terminals; a plurality of phase shifters coupled to separate, respective output terminals of the plurality of output terminals, the plurality of phase shifters configured to receive separate, respective optical signals of the plurality of optical signals and shift phases thereof to generate a plurality of phase-shifted optical signals; a plurality of antennas configured to receive, from the plurality of phase shifters, the plurality of phase-shifted optical signals; and an optical signal interferometer, the optical signal interferometer including a plurality of first input waveguide regions connected to a limited selection of the plurality of antennas and extending in a first direction, a multi-mode waveguide region connected to the plurality of first input waveguide regions, and a first output waveguide region connected to the multi-mode waveguide region and extending in the first direction. 2. The beam steering OPA of claim 1 , wherein the first output waveguide region is configured to correspond to a centerline of the plurality of first input waveguide regions in the first direction. 3. The beam steering OPA of claim 2 , further comprising: a plurality of first photoelectric converters connected to the first output waveguide region. 4. The beam steering OPA of claim 3 , wherein the optical signal interferometer includes a second output waveguide region separate from the first output waveguide region, and a second photoelectric converter connected to the second output waveguide region. 5. The beam steering OPA of claim 1 , wherein the first output waveguide region is configured to correspond to a centerline of the multi-mode waveguide region in the first direction. 6. The beam steering OPA of claim 1 , wherein adjacent first input waveguide regions among the plurality of first input waveguide regions are equidistantly separate from each other. 7. The beam steering OPA of claim 1 , wherein, the plurality of antennas include separate, respective output terminals of a plurality of remaining output terminals, and the plurality of first input waveguide regions are connected to separate, respective output terminals of the plurality of remaining output terminals. 8. The beam steering OPA of claim 1 , wherein the plurality of phase shifters are configured to change phases of the plurality of optical signals so that the plurality of phase-shifted optical signals have different phases from each other, and correct phase errors of the plurality of phase-shifted optical signals. 9. The beam steering OPA of claim 1 , wherein the plurality of phase shifters include a plurality of first phase shifters configured to change phases of the plurality of optical signals to generate the plurality of phase-shifted optical signals that have different phases from each other, and a plurality of second phase shifters configured to correct errors of the plurality of phase-shifted optical signals. 10. The beam steering OPA of claim 1 , wherein the optical signal interferometer is a many-to-one multi-mode interferometer. 11. The beam steering OPA of claim 1 , further comprising: a plurality of optical signal branching elements between at least a portion of antennas of the plurality of antennas and the optical signal interferometer, the plurality of optical signal branching elements configured to divide optical signals received from the portion of antennas into a plurality of divided optical signals and output the plurality of divided optical signals. 12. A beam steering optical phased array (beam steering OPA), comprising: an optical signal distributor, the optical signal distributor including an input terminal and a plurality of output terminals; a plurality of phase shifters connected to separate, respective output terminals of the plurality of output terminals; a plurality of antennas connected to separate, respective phase shifters of the plurality of phase shifters; and an optical signal interferometer, the optical signal interferometer including a plurality of first input waveguide regions connected to separate, respective antennas of the plurality of antennas and extending in a first direction, a multi-mode waveguide region connected to the plurality of first input waveguide regions, and an output waveguide region connected to the multi-mode waveguide region and extending in the first direction. 13. The beam steering OPA of claim 12 , wherein, the plurality of antennas include separate, respective output terminals of a plurality of remaining output terminals, and the first input waveguide regions are connected to separate, respective output terminals of the plurality of remaining output terminals. 14. The beam steering OPA of claim 12 , wherein adjacent first input waveguide regions among the plurality of first input waveguide regions are equidistantly separate from each other in a second direction perpendicular to the first direction. 15. The beam steering OPA of claim 12 , wherein the output waveguide region is configured to correspond to a centerline of an entirety of the first input waveguide regions in the first direction. 16. A beam steering optical phased array (beam steering OPA), comprising: an optical signal distributor, the optical signal distributor including a plurality of output terminals, the optical signal distributor configured to divide and output a plurality of optical signals through separate, respective output terminals of the plurality of output terminals; a plurality of phase shifters coupled to separate, respective output terminals of the plurality of output terminals, the plurality of phase shifters configured to receive separate, respective optical signals of the plurality of optical signals and shift phases thereof to generate a plurality of phase-shifted optical signals; and an optical signal interferometer, the optical signal interferometer including a plurality of first input waveguide regions connected to separate, respective antennas of a plurality of antennas and extending in a first direction, a multi-mode waveguide region connected to the plurality of first input waveguide regions, and an output waveguide region connected to the multi-mode waveguide region and extending in the first direction. 17. The beam steering OPA of claim 16 , wherein the phase shifters are configured to change phases of the plurality of optical signals so that the plurality of phase-shifted optical signals have different phases from each other, and correct phase errors of the plurality of phase-shifted optical signals. 18. The beam steering OPA of claim 16 , wherein the plurality of phase shifters include a plurality of first phase shifters configured to change phases of the plurality of optical signals to generate the plurality of phase-shifted optical signals that have different phases from each other, and a plurality of second phase shifters configured to correct errors of the plurality of phase-shifted optical signals. 19. The beam steering OPA of claim 16 , wherein the plurality of antennas are configured to receive, from the plurality of phase shifters, the plurality of phase-shifted optical signals. 20. The