It is therefore certain that this is a phenomenon of the diffraction of light simply produced by the vesicles of the mist.
Orange, red, green, blue—all the hues produced by diffraction—were exhibited in the utmost splendor.
Spectra are, however, formed by diffraction, wherein the distribution of both heat and light is different from that produced by the prism.
Their slight amplitude, however, is the cause of there here being neither refraction nor diffraction phenomena, save in very special conditions.
These are known to be the strongest color bands in the diffraction spectrum, which accounts for their being generally observed.
The diffraction limit for a single image may decrease, although higher resolution datasets can still be collected due to the decreased radiation damage rate.
If the first term is large in comparison to the second term, the diffraction dominates over the nonlinear phenomena, leading to defocusing of the ripple.
Figure 4 shows the temporal evolution of diffraction profiles.