> The approach involves using electricity to alter the properties of the film, so that it changes from acting more like a “black body” – which absorbs and emits electromagnetic radiation but does not reflect it – to becoming more like a metal, which reflects radiation but is not good at absorbing or emitting it.
Could this be used for thermal management? E.g. reflect during the day, radiate during night?
> it could also be useful for covering radiators on satellites, allowing them to be tweaked to reflect heat when facing the sun and emit excess heat when facing deep space.
For that you just need to make sure your emissivity is low below the black body wavelength at the temperature it should have at night.
This is already in use/testing to serve as a kind of A/C in some locations, but iirc. it requires a clear sky to dump the heat into space.
I wonder about its long term potential as camouflage. By reducing its infrared emissivity, it can make a hot object look cooler, but might it not also prevent that hot object from shedding heat thereby causing its temperature to go up? Invisible soldiers aren't much good if they literally cook to death.
It has nothing to do with the thermal qualities of the object and everything to do with being able to alter emissivity. Thermal cameras are only accurate for a given emissivity and high end thermal cameras allow you to tune emissivity to get accurate readings [1]. By altering the emissivity of the material at will, you can camouflage your object against a camera assuming constant emissivity.
That's a great page! I only recently started learning about black body radiation namely due to investigating lighting for my house and photography lighting.
It will prevent objects from shedding heat through radiation, but it does not seem that it will in any way prevent them from shedding heat through conduction, convection, or evaporation. If the film were on the outer layer of a garment, as long as the inner layers still allowed the soldier's sweat to evaporate they would still be able to keep cool.
This is the main problem of stealth in every wavelength - it's easy to be stealthy in a certain direction. For example, fighter planes are only "really" stealthy when an enemy is approaching them from the front. If an F-35 turns after releasing missiles, it can suddenly be targeted easily.
Going back to the original topic - optical camouflage is possible, but only toward one observer, or to be more specific, from a single angle.
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[ 2.8 ms ] story [ 36.7 ms ] threadCould this be used for thermal management? E.g. reflect during the day, radiate during night?
I wonder about its long term potential as camouflage. By reducing its infrared emissivity, it can make a hot object look cooler, but might it not also prevent that hot object from shedding heat thereby causing its temperature to go up? Invisible soldiers aren't much good if they literally cook to death.
[1] http://en-us.fluke.com/training/training-library/measurement...
Going back to the original topic - optical camouflage is possible, but only toward one observer, or to be more specific, from a single angle.