The human eye has three types of colour sensitive cone cells in it, and they cover a range of light frequencies, with the combination of how strongly the cells activate allowing us to differentiate between a range of colours. Light, or rather the electromagnetic spectrum, comes is a huge range of frequencies, well beyond what we can see, and well beyond what we might consider to be light.

In addition to seeing with our eyes, we can make cameras that are sensitive to light, and can differentiate between frequencies using sensors that are sensitive to specific frequencies, and construct an image based on that. We can, however, make those types of sensors able to detect light at frequencies beyond the range that humans can see, and manipulate the output from those cameras to provide us with an image that we can interpret that incorporates frequencies of light not visible to humans.

An interesting real world example of this relates to bees and flowers. We know from careful biological study that bees can see further into the ultraviolet range than humans, and by imaging flowers with cameras sensitive to that light, we have found that some flowers that attract bees by being colourful are actually brightly coloured in the UV range, that bees can see but we can not.

There is a separate aspect to colour perception that relates to how the brain interprets what it can see. In fact a huge amount of what we think of as “seeing” things comes down to what goes on inside the brain, not in the eye itself. There have been interesting anthropological studies relating to how culture and language relate to the perception of colour. Not all languages have the same number of words for different colours, and not all languages distinguish them in the same way.

Anthropologists have noticed that the number of colour words a language has differentiate colours in a set order. If a language has just 2 colour words, they are dark and light (eg black and white). If there is a third, it is for red. Then either green or yellow, then the other of green or yellow, then blue, then brown, and finally purple, pink, orange and grey. But not every language groups colours in the same way. In English, we think of some colours as “blue and others as “green”. In Celtic languages, before English became a dominant influence, the word “glas” included some things that English speakers call green, and some things that English speakers call blue, but some green things an some blue things are also not “glas”, they are some other colour.

What is really weird, though, is it goes beyond language. There is an experiment where you show a person four squares. Three are the same colour and one is a little bit different, and ask the person to identify which square is the different one. If there person comes from a language and culture where the two colours fall on different sides of a division for colour words (say red and orange), they can identify the odd one out with a high degree of reliability. If you show the same colours to a person from a culture where the two colours are grouped as belonging to the same colour word, the ability of that person to pick the odd one out is very significantly lower. That suggests that the perception of colour is not just in the eye, but in the interpretation. The person who can not name the colours differently actually has a harder time being aware that they are different at all.