Thermochromatic liquid crystals, how do they change color?

AI Thread Summary
Liquid crystals in mood rings and LC thermometers change color with temperature due to the cholesteric liquid crystal phase, where molecules align in layers at a slight tilt. This alignment creates a "pitch" that determines which wavelengths of light are reflected; for instance, a pitch matching red light's wavelength will reflect red. The discussion explores the complexities of light interaction with these crystals, highlighting that light passes through the liquid crystal dye twice, involving reflections that affect its phase. It is clarified that the polarizer does not cancel all light but instead selectively reflects certain wavelengths while allowing others to pass through. Ultimately, the mechanism behind the selective reflection of red light remains a point of inquiry.
Coolcrab
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If you look at liquid crystals in things like moodrings and LCthermometers then you will notice that they can change color when heated.

Now I have looked on the internet and found that it has to do with the The cholesteric (or chiral nematic) liquid crystal phase, where they align with each other in layers but are slightly tilted across layers. Example:
image006.gif


I also know that they reflect the light which has the wavelength of a full rotation of the crystals, this being called the "pitch". (see pic)

So if they rotate at such an angle that they make a full rotation in P = lambda Red, then it will look red.

But I do not know why. If I look at this picture, then it looks like a polariser that goes in all directions:
http://plc.cwru.edu/tutorial/enhanced/files/lc/phase/Graphics%5Cschem.BMP Which would cansel out all the light, and not reflect any.

So can anyone tell me what's going on here?
 
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I don't think that it has to do with reflection of the back, as they say that that's often black to absorb everything that comes trough.
So it has to reflect all red light, while letting trough all the other light. But I don't see why or how.

And yea I, saw that source :P
 
I now know that the poleriser would not cansel out all the light, but rather repolerise/absorb a bit.
But I still don't get why red light would be reflected, while the rest is let trough.

Edit: red light in the case the the pitch has the length of red light's wavelength
 

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