Response of a Geosynchronous Spacecraft's Crystal Oscillator to Solar Flares: Results of a "Space Experiment"

Abstract

Viewing the frequency history of the high-quality quartz crystal oscillator onboard Milstar FLT-1 as a "space experiment," we examined the response of the crystal to various solar flares occurring over the past 4 years. One of the questions we address concerns the influence of enhanced space radiation on a crystal oscillator's random frequency fluctuations, which, in addition to radiation-induced deterministic effects, could affect the oscillator's timekeeping ability. Examining the response of the Milstar FLT-1 crystal oscillator to the large solar flares of 14 July and 9 November 2000, we find clear evidence of a flare-induced deterministic change in oscillator frequency. However, examining the random fluctuations of the oscillator's frequency about this deterministic variation, we find no evidence of a concomitant change in the nature of the oscillator's stochastic behavior. Additionally, we examined the magnitude of the radiation-induced frequency excursion for a number of solar flares, obtaining a scaling relation between maximum frequency excursion and solar proton fluence as measured by GOES satellites. The results show that even for the largest flares, timekeeping onboard a geosynchronous communications satellite need not be unduly perturbed by the enhanced space radiation environment of a solar flare, so long as a ground station can take mitigating action within a few hours of the flare's onset. Though limited to a unique satellite experiment, the results reported here bode well for satcom timekeeping during periods of solar maximum.

Document Details

Document Type

Technical Report

Publication Date

Dec 01, 2002

Accession Number

ADA484610

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