The measured intensity versus knife position yields a curve that is the integrated beam intensity in one direction.
This can be used to not only measure the intensity of the dipped beams but also to measure and compare the full beam intensity.
There are plans to improve this limit by 'recycling' the laser light so as to enhance the beam intensities.
This results in an exponential increase of emitted radiation power, leading to high beam intensities and laser-like properties.
It is shone intermittently on the crystal during the recording process for measuring the diffracted beam intensity.
These polarizers are also typically designed to tolerate very high beam intensities, such those produced by a laser.
They have reduced their beam intensity by forty percent.
This increased beam intensity while reducing the overall construction cost of a more powerful accelerator.
The latter offers advantages due to its higher beam intensity, lower divergence, and its continuous wavelength spectrum.