Development of the quantum discriminator for compact atomic clock

In the Laboratory of Frequency Standards, Quantum Radiophysics Division, Lebedev Physical Institute, a compact atomic standard of frequency and time is being developed. The results of this study make it possible to achieve a narrower metrological resonance of coherent population trapping (CPT) than in developed foreign analogues of compact atomic clocks, which will have a direct effect on the standard stability. The effect of the combination of buffer gas and antirelaxation coating on the CPT amplitude and resonance width are studied; parameters of short-cavity diode lasers (SCDLs) specially developed in collaboration with the Polyus Research and Development Institute are studied. A prototype of the compact physical discriminator for the atomic clock is developed and assembled. The dark width of the metrological resonance in the discriminator is less than 1 kHz, which theoretically implies the development of a compact atomic clock with a stability (Allan parameter) no worse than 3 · 10 −12 per hour.