A chalcogenide glass was used for an optical Kerr gate to sampling pulse contrast of femtosecond lasers with low repetition rate ( 40 Hz). The dynamic range of this method reached 10<sup>3</sup>, with a scanning range of 150ps and temporal sampling rate of 6.3 fs. The advantage of this method lies in its broad spectrum range including visible and NIR spectral region and easy operation.
In order to realize real-time auto-focusing for theodolite, lens-apart method was designed with the corresponding math
model built and analyzed. An Object beam splitted after the first image surface of the theodolite traveled through two
dialyte lens and then was imaged on CCD. The distance between two spots when exactly focused was set as the
calibration value, and the relationship between defocus distance and spot offset was given. The influence of tracking
center shift and divergence angle etc. on focusing accuracy was analyzed. Compared with the traditional focusing
method, this scheme has a higher accuracy, faster calculation, higher tolerance for environment temperature and a
simpler construction. The experiment result exhibited a resolution higher than 0.056mm, which shows a bright
engineering application prospect for this method.