Sensitive linear optical sampling system with femtosecond precision

A sensitive linear optical sampling (LOS) system with femtosecond precision was implemented and experimentally optimized for free-space time-frequency transfer. The effect of optical factors and electronic factors on timing jitter and sensitivity of LOS was quantitatively studied separately based on femtosecond optical frequency combs. These factors include the intensity of received signal light, the repetition frequency difference between two combs, the number of bits of the analog-to-digital converter, and the gain of the balanced detector. According to the experimental results, the performance of the LOS system was optimized and the minimum timing jitter of LOS was 2.06 fs when the power of the received signal light was 1 μW. Moreover, the sensitivity reached 3.03 nW when using a balanced detector with 160 K gain.A sensitive linear optical sampling (LOS) system with femtosecond precision was implemented and experimentally optimized for free-space time-frequency transfer. The effect of optical factors and electronic factors on timing jitter and sensitivity of LOS was quantitatively studied separately based on femtosecond optical frequency combs. These factors include the intensity of received signal light, the repetition frequency difference between two combs, the number of bits of the analog-to-digital converter, and the gain of the balanced detector. According to the experimental results, the performance of the LOS system was optimized and the minimum timing jitter of LOS was 2.06 fs when the power of the received signal light was 1 μW. Moreover, the sensitivity reached 3.03 nW when using a balanced detector with 160 K gain.