Spectrometry system with visible aiming beam

What is claimed is: 1. An apparatus to measure spectra of a sample, comprising: a lens array comprising a plurality of lenses, the lens array configured to receive light from the sample; an image sensor comprising a plurality of sensor areas, the image sensor configured to receive light transmitted through the lens array; a support array disposed between the lens array and the image sensor, the support array comprising a plurality of channels configured to optically isolate light within each channel; wherein each channel comprises a first opening facing the lens array, a second opening facing the image sensor, and a channel wall extending between the first opening and the second opening, and wherein the channel wall of each channel is disposed between a lens of the lens array and a sensor area of the image sensor, such that light exiting from the second opening of each channel forms a pattern of light on each sensor area that substantially matches the size and shape of the second opening of the channel, wherein the channel wall of a channel from the plurality of channels does not extend all the way to the image sensor. 2. An apparatus as in claim 1 , wherein the light exiting from the second opening of each channel forms a pattern of light on each corresponding sensor area that does not overlap with adjacent patterns of light formed on adjacent sensor areas. 3. An apparatus as in claim 1 , wherein the first opening of a channel has a round shape to provide an aperture stop at a corresponding lens of the lens array. 4. An apparatus as in claim 1 , further comprising an aperture array comprising a first aperture array layer and a second aperture array layer, wherein the lens array is disposed between the aperture array and the support array. 5. An apparatus as in claim 1 , wherein a side wall of a channel from among the plurality of channels is configured to reduce an intensity of light by at least about 90% after a single reflection of the light from the side wall. 6. An apparatus as in claim 1 , wherein the image sensor is further configured to demodulate a signal generated from light transmitted through the lens array. 7. An apparatus to measure spectra of a sample, comprising: a lens array comprising a plurality of lenses, the lens array configured to receive light from the sample; an image sensor comprising a plurality of sensor areas, the image sensor configured to receive light transmitted through the lens array; a support array disposed between the lens array and the image sensor, the support array comprising a plurality of channels configured to optically isolate light within each channel; wherein each channel comprises a first opening facing the lens array, a second opening facing the image sensor, and a channel wall extending between the first opening and the second opening, and wherein the channel wall of each channel is disposed between a lens of the lens array and a sensor area of the image sensor, such that light exiting from the second opening of each channel forms a pattern of light on each sensor area that substantially matches the size and shape of the second opening of the channel, wherein the light exiting from the second opening of each channel forms a pattern of light on each corresponding sensor area that substantially overlaps with adjacent patterns of light formed on adjacent sensor areas. 8. An apparatus as in claim 7 , wherein the channel wall of a channel from the plurality of channels extends from the lens of the lens array to the sensor area of the image sensor. 9. An apparatus as in claim 7 , wherein the channel wall of a channel from the plurality of channels does not extend all the way to the image sensor. 10. An apparatus as in claim 7 , further comprising an aperture array comprising a first aperture array layer and a second aperture array layer, wherein the lens array is disposed between the aperture array and the support array. 11. An apparatus as in claim 7 , wherein the image sensor is further configured to demodulate a signal generated from light transmitted through the lens array. 12. An apparatus to measure spectra of a sample, comprising: a lens array comprising a plurality of lenses, the lens array configured to receive light from the sample; an image sensor comprising a plurality of sensor areas, the image sensor configured to receive light transmitted through the lens array; a support array disposed between the lens array and the image sensor, the support array comprising a plurality of channels configured to optically isolate light within each channel; wherein each channel comprises a first opening facing the lens array, a second opening facing the image sensor, and a channel wall extending between the first opening and the second opening, and wherein the channel wall of each channel is disposed between a lens of the lens array and a sensor area of the image sensor, such that light exiting from the second opening of each channel forms a pattern of light on each sensor area that substantially matches the size and shape of the second opening of the channel, wherein the image sensor is further configured to demodulate a signal generated from light transmitted through the lens array. 13. An apparatus as in claim 12 , wherein the light exiting from the second opening of each channel forms a pattern of light on each corresponding sensor area that does not overlap with adjacent patterns of light formed on adjacent sensor areas. 14. An apparatus as in claim 12 , further comprising an aperture array comprising a first aperture array layer and a second aperture array layer, wherein the lens array is disposed between the aperture array and the support array. 15. An apparatus as in claim 12 , wherein a first channel from among the plurality of channels is offset from a second channel from among the plurality of channels by at least 3 degrees.