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Q&A

What would be different if a person has broader visual spectrum than normal

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What would be differently perceived from a person with broader visual spectrum than normal?

So I've seen this question, especially the accepted answer, and it certainly is not what I'm looking for. The question asks for a man with the eyes of martial eagle. The answer, likewise, considers the acuity of a martial eagle's eyes, or any predatory bird in general. Likewise, most answers account for increased fidelity of the image from those eyes. What I'm looking for is more specific on the effect it has to have a broader visual spectrum.

In my scenario a particular person has a visible light spectrum of ~300nm to ~800nm, and is living his daily life among normal humans. How he acquires the ability is not important, and he has no difficulties dealing with processing the information, etc. This person lives in a normal human city at around 2000s, and does sometimes travel. Due to his acuity of vision happening to overlap with that of a normal person, he can easily distinguish normal human color, and also beyond.

Therefore the scope of this question is what is normally invisible for humans, but visible from the perspective of this person in:

  • normal, daily urban life environment. Especially concerning day-to-day interactions
  • in a medical setting - the person in question is a doctor
  • in a forest
  • when observing stones or geographical formation normally found in tours through areas with a relatively active volcanic, for example Ijen Crater

Here's what I know and some that I don't so far.

  1. Near ultraviolet, that is on the spectrum of around 300nm-400nm is what is normally visible to birds, insects and fish. Some people with a condition known as Aphakia or missing lens, or those who possess artificial lenses can see in this spectrum, and they describe it as whitish blue or violet (I found it here and there; this and this are a few of the cited sources). Still that's as far as I know. Perhaps the most interesting thought I have is that this person can probably see sunblock as a translucent layer over the skin of the wearer, instead of transparent as we see it, but I can't be sure. Also I know that some stones are fluorescent, but most sites (almost all I found) only describe them as minerals that absorb UV lights and emit visible light. I am not interested in this. What I'm interested in is what the stones would look like for this person.

  2. Near infrared, that is on the spectrum of around 750nm-1400nm. But apparently normally used in near infrared spectroscopy is light on the range of 780nm-2500nm. Previously I expected him to be capable of full night vision, but apparently this is not the case. Still, I have no idea on whether or not he would fare better at night than a normal person, or, how much better he is. Also I once found it in the net that a fart is basically hot air, and probably visible at infrared, but I am not sure on what spectrum a fart would be visible.

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I have aphakia, so I can address the near-UV end from personal experience. For the near-IR, I can only reason from other sources.

In daylight, subtle effects like the patterns on flowers mentioned in another answer are completely dwarfed by the giant UV source in the sky. Somebody seeing into the near-UV sees sunlight as brighter than others do, to the point of being painful at times. On bright sunny days, or bright winter days with snow cover, I have to wear protective lenses and/or squint to block out a lot of the light. Near-UV vision is a negative in broad daylight.

Near-UV shines, so to speak, in moonlight. Moonlight is just reflected sunlight, but the full moon is only about 1/400,000 the brightness of the sun, so someone who sees into the near-UV can see by moonlight without it being painful. My personal experience is that moonlight makes everything brighter (compared to what I see through glasses) and whiter/bluer. I've never looked for, or noticed, flower patterns or vole urine trails, so I don't know if that's farther into the UV or bees' and predators' eyes are different in this regard.

I would expect a human who can see into the near-UV without the loss of visual acuity that comes from aphakia to see well by moonlight, preferring moonlight to low levels of artificial light. (For example, when walking outside he'd probably prefer not to carry a small lantern.) Light-colored surfaces will be especially visible; he'll probably trip over dark obstacles the same as anybody else.

At the other end of the spectrum, near-IR vision will see thermal signals, the hotter the brighter. This is the principle used by night-vision devices that help military people see opponents. It's not so much an optical "seeing" like near-UV but, rather, heat made visible in near-IR. You'll see a person but not the details of what he's wearing, for instance. (Near-IR vision won't help you see stuff that's the same temperature as its surroundings.) I speculate that a very hot object could "blind" you in the way that bright sun "blinds" you in near-UV, and that near-IR vision will brighten things overall in daylight, particularly on a warm sunny day.

Things like remote controls and IR-illumination LEDs built into security cameras operate in the IR spectrum, so somebody with near-IR vision should be able to see them at least in a dark room. I don't know whether they would be too faint to see in a bright room for someone seeing both normal and IR spectra. I was unable to find anything that addresses how near-IR vision would affect what you see in daylight.

You're extending the range in both directions, so we need to consider how these two modifications would interact with each other. In bright daylight, as best I can tell, neither will confer an advantage and at least near-UV confers some disadvantage. (I think near-IR would confer a disadvantage too.) At night, you should be able to benefit from both; the reflection and fluorescence of near-UV is a completely different process from the thermal properties of near-IR. I was unable to find reliable information about how night-vision devices perform under full moonlight, which would give us some hint about whether they interfere with each other.

People who see in the near-UV and near-IR spectra in addition to normal visible light will probably be super-sensitive to sunlight. I would expect them to either spend less time outdoors or wear eye protection akin to sunglasses or chemically-variable lenses. In darker settings and under moonlight, however, they'll do better than normal humans and wouldn't want any filters in the way. If your humans solve their sensitivity problem with special glasses, therefore, they'll need a way to turn it off. (Sure you can just take the glasses off, but that leaves you with something you need to carry around and protect. Photochromatic lenses appeal to people who don't want to carry around an extra pair of sunglasses; your people will have an analogous problem.)

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