Optical modulation employing high contrast grating lens

What is claimed is: 1 . A high contrast grating optical modulation apparatus comprising: a optical modulator at a front surface of a substrate, the optical modulator to modulate light received by the optical modulation apparatus; and a high contrast grating (HCG) lens adjacent to a back surface of the substrate opposite to the front surface, the HCG lens to focus light incident on the optical modulation apparatus as the received light onto the optical modulator, wherein the substrate is transparent to operational wavelengths of the focused incident light and the modulated light. 2 . The high contrast grating optical modulation apparatus of claim 1 , wherein the optical modulator is a Fabry-Perot modulator comprising a Fabry-Perot cavity and a modulation material within the Fabry-Perot cavity. 3 . The high contrast grating optical modulation apparatus of claim 2 , wherein the Fabry-Perot modulator is one or both of an electrorefraction modulator having an electrorefraction material as the modulation material and an electroabsorption modulator having an electroabsorption material as the modulation material. 4 . The high contrast grating optical modulation apparatus of claim 2 , wherein the Fabry-Perot modulator comprises an active layer between a pair of distributed Bragg reflectors, the active layer comprising one of a bulk semiconductor material and multiple quantum wells. 5 . The high contrast grating optical modulation apparatus of claim 1 , further comprising an optical circulator to separate the modulated light produced by the optical modulator from the incident light, wherein the high contrast grating optical modulation apparatus is a reflective optoelectronic modulator. 6 . The high contrast grating optical modulation apparatus of claim 1 , further comprising another HCG lens adjacent to the back surface of the substrate and laterally displaced from the incident light focusing HCG lens, the other HCG lens to focus and tilt the modulated light produced by the optical modulator, wherein the lateral displacement of the respective HCG lenses provides a separation of the incident light and the modulated light. 7 . The high contrast grating optical modulation apparatus of claim 1 , wherein the optical modulator is a transmissive optical modulator to emit the modulated light in a direction away from the front surface of the substrate and the HCG lens. 8 . An optoelectronic modulation apparatus employing a high contrast grating comprising: a transparent substrate having a first surface and a second surface opposite the first surface, the transparent substrate to transmit light incident on the optoelectronic modulation apparatus between the first surface and the second surface; an optoelectronic modulator at the first surface of the transparent substrate, the optoelectronic modulator to modulate the transmitted incident light received through the transparent substrate from the second surface; and a high contrast grating (HCG) layer adjacent to the transparent substrate second surface, the HCG layer comprising an HCG lens to focus the incident light onto the optoelectronic modulator as the transmitted incident light. 9 . The optoelectronic modulation apparatus employing a high contrast grating of claim 8 , wherein optoelectronic modulator comprises a Fabry-Perot modulator to provide one or both of electrorefraction modulation and electroabsorption modulation of the transmitted incident light. 10 . The optoelectronic modulation apparatus employing a high contrast grating of claim 8 , further comprising a spacer layer between the HCG layer and the transparent substrate, the spacer layer to provide a cavity to suspend the HCG lens spaced from the second surface of the transparent substrate. 11 . The optoelectronic modulation apparatus employing a high contrast grating of claim 8 , further comprising a wafer-bonded support substrate to support the HCG layer on a surface of the wafer-bonded substrate. 12 . The optoelectronic modulation apparatus employing a high contrast grating of claim 11 , wherein the HCG layer is on the surface of the wafer-bonded support substrate adjacent to and facing the transparent substrate second surface. 13 . The optoelectronic modulation apparatus employing a high contrast grating of claim 11 , wherein the HCG layer is on the surface of the wafer-bonded support substrate opposite a surface of the wafer-bonded support substrate that is adjacent to and facing the transparent substrate second surface. 14 . A method of optical modulation, the method comprising: focusing light into a transparent substrate using a high contrast grating (HCG) lens, the focused light transmits through the transparent substrate between the HCG lens and an optical modulator; and modulating the focused light transmitted through the transparent substrate using the optical modulator, the optical modulator and the HCG lens being respectively adjacent to opposite surfaces of the transparent substrate, wherein the modulated light is transmitted out of the optical modulator one or both of back through the transparent substrate and in a direction opposite to the transparent substrate. 15 . The method of optical modulation of claim 14 , wherein the optical modulator is a Fabry-Perot modulator, and wherein modulating the focused light using the Fabry-Perot modulator comprises one or both of modulating using electrorefraction modulation and modulating using electroabsorption modulation of the focused light.