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If it meets these requirements, we will be in optical range. The farther the object is, the less photons will be at the retina. The closer, more photons will be at the retina. Same exact thing as afferent vision except that there is no time involved because the non-absorbed photons are not traveling through space/time. Only the full spectrum is traveling through space/time.
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You seem to be describing some kind of bubble of non-absorbed photons surrounding the object and not traveling, just sitting there like an atmosphere around the object, and when you enter this "atmosphere" you can see the object and if you are not in the bubble there is only white light outside of it and you can't see what is in the bubble.
Is that an accurate description of what you think is the case?