In the rubidium atomic frequency standard (RAFS), an rf-discharge lamp produces the device's atomic signal. As a consequence of the light-shift effect, variations in the lamplight's intensity result in variations in the RAFS' output frequency. While the basic physics of the light-shift is reasonably well understood, its operational implications for global navigation satellite system (GNSS) performance is only beginning to be fully appreciated. Here, we describe first results examining decade-long histories of on-orbit GPS RAFS lamplight variations and GPS RAFS frequency variations. Our preliminary analyses have focused on one space vehicle's RAFS, and our conclusions are tempered by that present limitation. Nevertheless, our analyses suggest that a RAFS' long-term frequency stability (i.e., τ 106 sec) is likely lower-bounded by the lamp's intensity fluctuations. Moreover, considering the light-shift coefficient for this one particular RAFS over 12 years, we find that the data do not support Camparo's hypothesis regarding RAFS frequency aging and a time-varying light-shift coefficient.

Rubidium clock lamplight variations and long-term frequency instability: First analyses of multiyear GPS data / Camparo, James; Sesia, Ilaria; Formichella, Valerio; Signorile, Giovanna; Galleani, Lorenzo; Tavella, Patrizia. - CD-ROM. - 2015-:(2016), pp. 150-156. (Intervento presentato al convegno 47th Annual Precise Time and Time Interval Systems and Applications Meeting, PTTI 2016 tenutosi a Hyatt Regency Monterey, usa nel 2016).

Rubidium clock lamplight variations and long-term frequency instability: First analyses of multiyear GPS data

SESIA, ILARIA;FORMICHELLA, VALERIO;SIGNORILE, GIOVANNA;GALLEANI, Lorenzo;TAVELLA, PATRIZIA
2016

Abstract

In the rubidium atomic frequency standard (RAFS), an rf-discharge lamp produces the device's atomic signal. As a consequence of the light-shift effect, variations in the lamplight's intensity result in variations in the RAFS' output frequency. While the basic physics of the light-shift is reasonably well understood, its operational implications for global navigation satellite system (GNSS) performance is only beginning to be fully appreciated. Here, we describe first results examining decade-long histories of on-orbit GPS RAFS lamplight variations and GPS RAFS frequency variations. Our preliminary analyses have focused on one space vehicle's RAFS, and our conclusions are tempered by that present limitation. Nevertheless, our analyses suggest that a RAFS' long-term frequency stability (i.e., τ 106 sec) is likely lower-bounded by the lamp's intensity fluctuations. Moreover, considering the light-shift coefficient for this one particular RAFS over 12 years, we find that the data do not support Camparo's hypothesis regarding RAFS frequency aging and a time-varying light-shift coefficient.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2646344
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