Mode conversion for optical isolation

What is claimed is: 1 . An optical coupling system comprising: an optical signal source to provide an optical signal from an aperture; a substantially planar high-contrast grating (HCG) lens to convert an optical mode of the optical signal to provide a converted optical signal having a mode-isolating intensity profile; and an optical element to receive the converted optical signal, the optical signal source and the substantially planar HCG lens being arranged to substantially mitigate coupling of a reflected optical signal associated with the converted optical signal that is reflected from the optical element to the aperture of the optical signal source based on a reflected mode-isolating intensity profile. 2 . The system of claim 1 , wherein the substantially planar HCG lens comprises a plurality of resonant structures that are defined by a plurality of gradient patterns along a radius of the substantially planar HCG lens. 3 . The system of claim 2 , wherein the plurality of resonant structures are fabricated from a first material and are substantially surrounded by a second material, wherein a difference between an index-of-refraction of the first material and an index-of-refraction of the second material is greater than or equal to one. 4 . The system of claim 2 , wherein the plurality of resonant structures are provided as a plurality of posts arranged on a substrate, the plurality of posts within each of the plurality of gradient patterns having a width that is defined by a gradient, such that the width of the plurality of posts decreases in a direction extending radially outward from a center of the substantially planar HCG lens in each given one of the plurality of gradient patterns. 5 . The system of claim 2 , wherein the plurality of resonant structures are provided as a plurality of posts arranged on a substrate, the plurality of posts within each of the plurality of gradient patterns having substantially equal width and populating the substantially planar HCG lens with a density that is defined by a gradient, such that the density of the plurality of posts populating the substantially planar HCG lens decreases in a direction extending radially outward from a center of the substantially planar HCG lens in each given one of the plurality of gradient patterns. 6 . The system of claim 1 , wherein the intensity profile of the optical signal is arranged as a substantially off-axis intensity profile to substantially mitigate coupling of the optical energy of the reflected optical signal with the aperture. 7 . The system of claim 1 , wherein the optical signal source is a vertical-cavity surface-emitting laser (VCSEL), and wherein the optical element is a multi-mode optical fiber. 8 . The system of claim 1 , wherein the optical signal source is an optical fiber, and wherein the optical element is a PIN diode. 9 . A mounted package comprising the substantially planar HCG lens of the optical coupling system and the optical signal source or the optical element of claim 1 , wherein the other of the optical signal source or the optical element is an optical fiber, the mounted package further comprising a connector to receive the optical fiber. 10 . The mounted package of claim 9 , further comprising: a second substantially planar HCG lens; a second optical signal source or optical element; and a second connector to receive a second optical fiber. 11 . A method for coupling an optical signal to an optical element, the method comprising: providing the optical signal from an aperture of an optical signal source; converting modes of the optical signal via a substantially planar high-contrast grating (HCG) lens to provide a converted optical signal having a mode-isolating intensity profile, the HCG lens comprising a plurality of resonant structures that are arranged in manner sufficient to substantially provide mode-isolation; and focusing the converted optical signal to the optical element via the substantially planar HCG lens, the optical signal source and the substantially planar HCG lens being arranged to substantially mitigate coupling of a reflected optical signal associated with the converted optical signal that is reflected from the optical element to the aperture of the optical signal source based on a reflected mode-isolating intensity profile. 12 . The method of claim 11 , wherein the plurality of resonant structures are defined by a plurality of gradient patterns along a radius of the substantially planar HCG lens, the plurality of resonant structures within each of the plurality of gradient patterns having a width that is defined by a gradient, such that a dimension of the plurality of resonant structures decreases in a direction extending radially outward from a center of the substantially planar HCG lens in each given one of the plurality of gradient patterns. 13 . The method of claim 11 , wherein the plurality of resonant structures are defined by a plurality of gradient patterns along a radius of the substantially planar HCG lens, the plurality of resonant structures within each of the plurality of gradient patterns having substantially equal dimensions and populating the substantially planar HCG lens with a density that is defined by a gradient, such that the density of the plurality of resonant structures populating the substantially planar HCG lens decreases in a direction extending radially outward from a center of the substantially planar HCG lens in each given one of the plurality of gradient patterns. 14 . An optical device package comprising: an optical device to generate or receive an optical signal; a connector to receive an optical fiber that is to provide or receive the optical signal; and a substantially planar high-contrast grating (HCG) lens interconnecting the optical device and the connector, the substantially planar HCG lens being to convert an optical mode of the optical signal to provide a converted optical signal having an intensity profile that is arranged as a substantially off-axis intensity profile, the optical device, the connector, and the substantially planar HCG lens being arranged to substantially mitigate coupling of a reflected optical signal associated with the converted optical signal that is reflected between the optical device and the optical fiber based on the substantially off-axis intensity profile. 15 . The package of claim 14 , wherein the substantially planar HCG lens comprises a plurality of resonant structures that are defined by a plurality of gradient patterns along a radius of the substantially planar HCG lens, the plurality of resonant structures being provided as a plurality of posts arranged on a substrate, the plurality of posts within each of the plurality of gradient patterns having a width or a density of population on the substrate that is defined by a gradient, such that the one of the width and the density of population of the plurality of posts decreases in a direction extending radially outward from a center of the substantially planar HCG lens in each given one of the plurality of gradient patterns.