It is well known that temperature variations and acoustic noise affect ultrastable frequency dissemination along optical fiber. Active stabilization techniques are in general adopted to compensate for the fiber-induced phase noise. However, despite this compensation, the ultimate link performances remain limited by the so called delay-unsuppressed fiber noise that is related to the propagation delay of the light in the fiber. In this paper, we demonstrate a data post-processing approach which enables us to overcome this limit. We implement a subtraction algorithm between the optical signal delivered at the remote link end and the round-trip signal. In this way, a 6dB improvement beyond the fundamental limit imposed by delay-unsuppressed noise is obtained. This result enhances the resolution of possible comparisons between remote optical clocks by a factor of 2. We confirm the theoretical prediction with experimental data obtained on a 47km metropolitan fiber link, and propose how to extend this method for frequency dissemination purposes as well.
Novel techniques for optical fiber links beyond current practice / Calosso, C. E.; Bertacco, E.; Calonico, D.; Clivati, C.; Costanzo, Giovanni Antonio; Frittelli, M.; Levi, F.; Micalizio, S.; Mura, A.; Godone, A.. - ELETTRONICO. - (2014), pp. 5-8. (Intervento presentato al convegno European Frequency and Time Forum (EFTF), 2014 tenutosi a Neuchatel, Switzerland nel 23-26 June 2014) [10.1109/EFTF.2014.7331413].
Novel techniques for optical fiber links beyond current practice
COSTANZO, Giovanni Antonio;
2014
Abstract
It is well known that temperature variations and acoustic noise affect ultrastable frequency dissemination along optical fiber. Active stabilization techniques are in general adopted to compensate for the fiber-induced phase noise. However, despite this compensation, the ultimate link performances remain limited by the so called delay-unsuppressed fiber noise that is related to the propagation delay of the light in the fiber. In this paper, we demonstrate a data post-processing approach which enables us to overcome this limit. We implement a subtraction algorithm between the optical signal delivered at the remote link end and the round-trip signal. In this way, a 6dB improvement beyond the fundamental limit imposed by delay-unsuppressed noise is obtained. This result enhances the resolution of possible comparisons between remote optical clocks by a factor of 2. We confirm the theoretical prediction with experimental data obtained on a 47km metropolitan fiber link, and propose how to extend this method for frequency dissemination purposes as well.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2624911
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