The ability to change the way light is absorbed by a substance has been a hot topic of research over the past few years.
Some researchers believe that this ability is an inherent property of nature, and are trying to figure out how to harness it to make paint more vibrant and more durable.
The first of these researchers, Daniel Loeffler, is the lead scientist on a team of researchers led by Dr. Yoon-Yeon Kim of the University of Southern California.
Their study of the effects of light on paint pigments in the lab found that there are two different types of pigments that respond to light.
The first, called color shifting, is a pigments response to light that depends on the wavelength of the light, but it is not affected by color or intensity.
The second, called pigment-to-pigment light, is affected by the wavelength and intensity of the input light, and the color of the pigment.
Loefler and his team have been investigating these two types of light response since 2012.
Loefflers team found that these two kinds of light are not the only ways light affects pigment pigments.
It is also possible that light can be absorbed by the pigments themselves.
When light hits the pigment surface, the pigment molecules shift into the same color as the light source, and these changes are then reflected back to the pigment surface, changing the color from the light.
In their study, the researchers used a laser that produces a laser pulse that creates the light pulse.
The pulse is then sent through the pigment to the pigmentation surface, where it changes the pigment’s color.
The researchers then measured how much of the color shift occurred after the light was absorbed by each pigment.
They found that about half of the change was due to light, while the other half was due the pigmented pigments absorbing light and changing their color.
This means that the ability to control light absorption by pigments and pigments pigments is a key to creating the perfect paint.
This also helps explain why a lot of people have trouble painting with paint that is too dark, such as matte black, as the colors in a paint are not changing, the scientists explain.
The new findings also suggest that this light-sensitive ability could be used to create colors that are more reflective, such that paint will absorb less light.
This study was published in the journal Nature Communications.
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