Beam shaping for ultra-small vertical cavity surface emitting laser (VCSEL) arrays

The invention claimed is: 1. A laser array, comprising: a plurality of laser diodes arranged and electrically connected to one another on a surface of a non-native substrate, wherein respective laser diodes of the plurality of laser diodes have different orientations relative to one another, wherein the respective laser diodes are configured to provide coherent light emission in different directions, and wherein the laser array is configured to emit an output beam comprising the coherent light emission from the respective laser diodes; and a lens that is attached to the non-native substrate and is configured to alter a divergence of the output beam in at least one dimension, wherein the lens comprises a flexible material having a curvature corresponding to a curvature of the non-native substrate and/or corresponding to the different orientations of the respective laser diodes. 2. The laser array of claim 1 , wherein the laser array comprises a LIDAR array, and wherein the output beam comprises a superposition of the coherent light emission from the multiple of the respective laser diodes that defines incoherent light having a non-uniform intensity distribution over a field of view of the laser array. 3. The laser array of claim 2 , wherein the non-uniform intensity distribution is controllable responsive to a control signal to alter a curvature of a flexible substrate comprising the non-native substrate, and/or responsive to power supplied to the respective laser diodes via selective addressing. 4. The laser array of claim 1 , wherein the curvature of the non-native substrate provides the different orientations of the respective laser diodes. 5. The laser array of claim 4 , wherein the non-native substrate is a flexible substrate that is bent to define the curvature of the non-native substrate. 6. The laser array of claim 1 , wherein the surface comprises a back surface of the non-native substrate, wherein the respective laser diodes are arranged to provide the coherent light emission through the non-native substrate, and wherein the non-native substrate comprises a material that is transparent to and is configured to at least partially collimate the coherent light emission. 7. The laser array of claim 1 , wherein respective features on the surface of the non-native substrate provide the different orientations of the respective laser diodes. 8. The laser array of claim 7 , wherein the respective features comprise unequal-height features and/or recesses that are sized and spaced to provide the different orientations of the respective laser diodes. 9. The laser array of claim 1 , wherein the at least one dimension comprises a first direction and a second direction, wherein the lens comprises a primary lens that is configured to alter the divergence of the output beam in the first direction, and a secondary lens positioned to receive the output beam from the primary lens and alter the divergence thereof in the second direction. 10. The laser array of any of claim 9 , wherein the lens comprises at least one of a Fresnel lens, a plurality of shaped lenslets, an optical diffuser, or a plurality of ball lenses. 11. The laser array of claim 10 , wherein respective ball lenses of the plurality of ball lenses are suspended over respective subsets of the plurality of laser diodes, and wherein optical axes of the respective ball lenses are offset with respect to optical axes defined by respective lasing apertures of the respective subsets of the plurality of laser diodes. 12. The laser array of claim 1 , wherein the respective laser diodes comprise a residual tether portion at a periphery thereof, wherein a spacing between immediately adjacent laser diodes of the plurality of laser diodes is less than about 500 micrometers. 13. The laser array of claim 1 , wherein respective subsets of the plurality of laser diodes are electrically connected anode-to-cathode on the non-native substrate. 14. The laser array of claim 1 , wherein the respective laser diodes are surface-emitting lasers that are separated from a native substrate thereof, wherein respective lasing apertures of the surface-emitting lasers define optical axes that are oriented in the different directions, respectively, and wherein respective electrical contacts to the surface-emitting lasers are smaller than the respective lasing apertures thereof. 15. A laser array, comprising: a plurality of laser diodes arranged and electrically connected to one another on a surface of a non-native substrate, wherein respective laser diodes of the plurality of laser diodes have different orientations relative to one another, wherein the respective laser diodes are configured to provide coherent light emission in different directions, and wherein the laser array is configured to emit an output beam comprising the coherent light emission from multiple of the respective laser diodes, wherein the non-native substrate comprises a curvature that provides the different orientations of the respective laser diodes, wherein the non-native substrate is a flexible substrate that is bent to define the curvature, wherein the flexible substrate is supported by at least one mandrel element that is configured for movement in one or more directions responsive to a control signal, and wherein the movement of the at least one mandrel element alters the curvature of the flexible substrate. 16. A laser array, comprising: a plurality of laser diodes arranged and electrically connected to one another on a surface of a non-native substrate, wherein respective laser diodes of the plurality of laser diodes have different orientations relative to one another, wherein the respective laser diodes are configured to provide coherent light emission in different directions, and wherein the laser array is configured to emit an output beam comprising the coherent light emission from the respective laser diodes, wherein respective features on the surface of the non-native substrate provide the different orientations of at least one of the respective laser diodes, and wherein the respective features comprise respective patterned surfaces of the non-native substrate. 17. The laser array of claim 16 , wherein the laser array is configured to emit the output beam without a refractive optical element on the plurality of laser diodes. 18. The laser array of claim 16 , further comprising a lens that is attached to the non-native substrate and is configured to alter a divergence of the output beam in at least one dimension. 19. A laser array, comprising: a plurality of laser diodes arranged and electrically connected to one another on a surface of a non-native substrate, wherein respective laser diodes of the plurality of laser diodes have different orientations relative to one another, wherein the respective laser diodes are configured to provide coherent light emission in different directions, and wherein the laser array is configured to emit an output beam comprising the coherent light emission from multiple of the respective laser diodes; and a lens that is attached to the non-native substrate and is configured to alter a divergence of the output beam in at least one dimension, wherein a subset of the plurality of laser diodes defines a column of the laser array, and wherein the lens comprises a respective cylindrical lens that has a specific orientation relative to the column.