The stability of an atomic clock changes with time due to several factors, such as mechanical vibrations, temperature, and radiations. To represent this time variation, we introduced the dynamic Allan variance (DAVAR). The DAVAR is a surface function of time and the observation interval. This surface is stationary with time when the clock follows the specifications, whereas it changes with time when an anomaly occurs. We derive the exact analytic DAVAR for a series of common anomalies, namely, a sinusoid, a phase jump, and a frequency jump. These anomalies are of fundamental interest in space clocks. Our results establish a clear connection between the nature and properties of the anomalies and the corresponding shape of the DAVAR.
Characterization of atomic clock anomalies in the dynamic Allan variance domain / Galleani, L.; Tavella, Patrizia. - (2013), pp. 645-648. (Intervento presentato al convegno 2013 Joint European Frequency and Time Forum and International Frequency Control Symposium, EFTF/IFC 2013 tenutosi a Prague nel 21-25 July 2013) [10.1109/EFTF-IFC.2013.6702278].
Characterization of atomic clock anomalies in the dynamic Allan variance domain
TAVELLA, PATRIZIA
2013
Abstract
The stability of an atomic clock changes with time due to several factors, such as mechanical vibrations, temperature, and radiations. To represent this time variation, we introduced the dynamic Allan variance (DAVAR). The DAVAR is a surface function of time and the observation interval. This surface is stationary with time when the clock follows the specifications, whereas it changes with time when an anomaly occurs. We derive the exact analytic DAVAR for a series of common anomalies, namely, a sinusoid, a phase jump, and a frequency jump. These anomalies are of fundamental interest in space clocks. Our results establish a clear connection between the nature and properties of the anomalies and the corresponding shape of the DAVAR.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.