Exact(60)
Particularly, at the critical wavelength, the transmissivities are zero.
Because their speed does not depend on wavelength, the waves are said to be nondispersive.
The shorter the wavelength, the smaller the point the laser beam can be focused on.
The shorter the wavelength, the finer the features but only up to a point.
The shorter the wavelength, the finer the features that can be inscribed and the less time the electrons will need to travel through a circuit.
When hit with light of a certain wavelength, the neurons become active, or "fire," sending signals that trigger nearby neurons.
If we average over wavelength, the measured throughput is about 75%to80%0% of the predicted numbers.
There is a trade-off, though: the shorter a beam's wavelength, the less deeply it can penetrate.
The shorter the wavelength, the more energetic the light, which means the particle is ejecting more energy forwards than backwards.
When the light wavelength is below the critical wavelength, the transmissivity is unidirectional.
At 365 nm wavelength, the highest peak responsivity observed was 350.98 A/W.
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