We report on a detailed analysis of frequency noise and intensity dynamics of a free-running femtosecond Ti:sapphire optical frequency comb (OFC) pumped by a multi-mode 532nm laser. We have used these results for phaselocking the OFC to a Hz-wide, cavitystabilized, 698nm semiconductor laser. An analysis of the in-loop error signals and an estimation of Allan deviation indicates a lower limit for the frequency stability of the OFC at the level of ~ 5.3 x 10^-14 for 125ms integration time comparable with the clock laser frequency stability over the entire OFC spectrum. The noise transfer processes between the pump laser and the Ti:sapphire laser have been studied in detail, comparing the resulting frequency noise of the OFC output spectrum with both a single-mode and a multimode pump lasers. In the latter case, we employed a pump beam steering control to maintain an OFC regime with a minimum impact of pump laser amplitude noise on the carrier-envelope offset frequency.

D. V. Sutyrin, N. Poli, N. Beverini, S. V. Chepurov, M. Prevedelli, M. Schioppo, et al. (2013). Frequency noise performances of a Ti:sapphire optical frequency comb stabilized to an optical reference. OPTICS COMMUNICATIONS, 291, 291-298 [10.1016/j.optcom.2012.11.045].

Frequency noise performances of a Ti:sapphire optical frequency comb stabilized to an optical reference

PREVEDELLI, MARCO;
2013

Abstract

We report on a detailed analysis of frequency noise and intensity dynamics of a free-running femtosecond Ti:sapphire optical frequency comb (OFC) pumped by a multi-mode 532nm laser. We have used these results for phaselocking the OFC to a Hz-wide, cavitystabilized, 698nm semiconductor laser. An analysis of the in-loop error signals and an estimation of Allan deviation indicates a lower limit for the frequency stability of the OFC at the level of ~ 5.3 x 10^-14 for 125ms integration time comparable with the clock laser frequency stability over the entire OFC spectrum. The noise transfer processes between the pump laser and the Ti:sapphire laser have been studied in detail, comparing the resulting frequency noise of the OFC output spectrum with both a single-mode and a multimode pump lasers. In the latter case, we employed a pump beam steering control to maintain an OFC regime with a minimum impact of pump laser amplitude noise on the carrier-envelope offset frequency.
2013
D. V. Sutyrin, N. Poli, N. Beverini, S. V. Chepurov, M. Prevedelli, M. Schioppo, et al. (2013). Frequency noise performances of a Ti:sapphire optical frequency comb stabilized to an optical reference. OPTICS COMMUNICATIONS, 291, 291-298 [10.1016/j.optcom.2012.11.045].
D. V. Sutyrin; N. Poli; N. Beverini; S. V. Chepurov; M. Prevedelli; M. Schioppo; F. Sorrentino; M. G. Tarallo; G. M. Tino
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/133177
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