We present the realisation of a magneto-optical trap for chromium.
52Cr atoms are loaded directly from a thermal beam. The trap
lifetime is enhanced by using two red lasers to repump population
that has decayed, via intercombination lines, to metastable levels
back into the cooling cycle. We have measured the wavelengths of
these intercombination lines and observed coherent Raman spectra. The
observed density of 108 cm−3 is currently limited by
collisions with the hot beam.
We demonstrate a novel technique for converting a continuous-wave laser beam into a stable train of short pulses with a high repetition rate. The system, which is generally applicable, is based on a purely passive coupled-cavity optical frequency comb generator, which ensures a high overall efficiency. The repetition rate of the device is determined by the drive frequency of an electro-optic modulator and the pulse width by the rf power applied to the modulator. We have observed pulses down to 3.3 ps long at a 5.34-GHz repetition rate and an overall efficiency of 11%. The experimental results for pulse shape and width show excellent quantitative agreement with the results of a simple model.
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