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This reads like something written by someone who failed Philosophy 101. Either it looks white to the typical eye or it doesn't. It can't look white without reflecting broad spectrum visible light, and if something reflects broad spectrum visible light, then we say it looks white.
Peteski,Sorry that was unintentional. I knew you were quoting, and I shouldn't have let it be ambiguous in my requote.
No problem - I just didn't want to be connected with such silliness. But OTOH, why would Epson would post such nonsense on their official website? Maybe they did develop some light scattering ink that looks white?
My guess is that, in order to make an opaque white thin enough to print via an inkjet, they've developed some sort of retro-reflective nanomaterial. So it's technically not "white"; it's a collection of tiny mirrors.The orientation of the nano-mirrors would be random enough that you wouldn't get a reflected image, just an impression of the general light level of the room, so it would look white when the room lights are white.(Caveat: I don't have any inside knowledge--this is just a theory.)
My guess is that, in order to make an opaque white thin enough to print via an inkjet, they've developed some sort of retro-reflective nanomaterial. So it's technically not "white"; it's a collection of tiny mirrors.The orientation of the nano-mirrors would be random enough that you wouldn't get a reflected image, just an impression of the general light level of the room, so it would look white when the room lights are white.
Again, I think you're just redescribing what white is. Anything that is white already does what your describing at nanometer scale. (Except I don't think that the 'retro-reflective' part doesn't make much sense, because that would look something like a mirror at a macro level as well. Scattering is part of looking white, retro-reflectors don't scatter so much by definition.)
Again, I'm not an expert--just trying to come up with a rationale for Epson's "not white, but looks white" description.
It could be because nothing really has color. Color is human perception of what our cones register, or translate from the spectral reflectance of an object. The data used by our cones is the spectral wavelength of light that is not absorbed by the object we observe. The apple is not red, the apple's molecular make-up is absorbing all of the spectral temperatures except for the ones human cones are triggered into perceiving as red.An object that absorbs all wavelengths "is" black. Stare at a light bulb that emits the full spectrum of wavelengths and all of them reach your eye to create the perception of white. It looks (blindingly) white, but wavelengths themselves have no color.
Thank you, doctor. And since we are responding to the data received via a message board, and not from you as an entity, you do not exist.