We here present a comparative study of frequency stabilities of pump and probe lasers coupled at a frequency offset generated by coherent photon-atom interaction. Pump-probe spectroscopy of the I > configuration in D(2) transition of cesium is carried out to obtain sub-natural (similar to 2 MHz) electromagnetically induced transparency (EIT) and sub-Doppler (similar to 10 MHz) Autler-Townes (AT) resonance. The pump laser is locked on the saturated absorption spectrum (SAS, similar to 13 MHz) and the probe laser is successively stabilized on EIT and AT signals. Frequency stabilities of pump and probe lasers are calculated in terms of Allan variance sigma(2,tau) by using the frequency noise power spectrum. It is found that the frequency stability of the probe stabilized on EIT is superior (sigma similar to 2x10(-13)) to that of SAS locked pump laser (sigma similar to 10(-12)), whereas the performance of the AT stabilized laser is inferior (sigma similar to 6x10(-12)). This contrasting behavior is discussed in terms of the theme of conventional master-slave offset locking scheme and the mechanisms underlying the EIT and sub-Doppler AT resonances in a Doppler broadened atomic medium.

• 出版日期2010-9