A Characterization of Periodicity in the Voltage Time Series of a Riometer

A Characterization of Periodicity in the Voltage Time Series of a Riometer

This paper reveals unprecedented periodicity in the voltage series of relative ionospheric opacity meters (riometers) of the Canadian Riometer Array (CRA). In quiet times, the riometer voltage series is accurately modeled by a stochastic process whose components include both a six term expansion in...

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Veröffentlicht in:Journal of geophysical research. Space physics 2020-07, Vol.125 (7), p.n/a, Article 2019
Hauptverfasser: Marshall, F. A., Thomson, D. J., Chave, A. D., Fiori, R. A. D., Danskin, D. W.
Format: Artikel
Sprache:eng
Schlagworte:
Advanced Composition Explorer
Astronomy & Astrophysics
cosmic noise
Density
Earth rotation
Electric potential
Estimates
Field strength
Frequency estimation
Harmonic functions
Interplanetary magnetic field
Magnetic fields
multitaper spectral analysis
Opacity
Peak frequency
periodic elements
Periodic variations
Physical Sciences
Power spectra
Protons
riometer
Riometers
Science & Technology
sidereal day
Signal to noise ratio
solar modes
Stochastic processes
Time series
Voltage
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container_issue 7
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container_title Journal of geophysical research. Space physics
container_volume 125
creator Marshall, F. A.
Thomson, D. J.
Chave, A. D.
Fiori, R. A. D.
Danskin, D. W.
description This paper reveals unprecedented periodicity in the voltage series of relative ionospheric opacity meters (riometers) of the Canadian Riometer Array (CRA). In quiet times, the riometer voltage series is accurately modeled by a stochastic process whose components include both a six term expansion in harmonic functions and some amplitude modulated modes of lower signal to noise ratio (SNR). In units of cycles per sidereal day (cpsd), the frequencies of the six harmonic functions lie within 0.01 cpsd of an integer. Earth's rotation induces a splitting of the low SNR components, resulting in the appearance of nine multiplets in standardized power spectrum estimates of the considered CRA voltage series. A second feature of these spectrum estimates is a 6 min periodic element appearing in both the CRA voltage series and the proton mass density series of the Advanced Composition Explorer (ACE). Spectral peak frequencies have been detected, which lie near established solar mode frequency estimates. In addition, some of these peak frequency estimates are coincident with peak frequency estimates of the standardized power spectra for the time series of proton mass density and interplanetary magnetic field strength (IMF) at ACE. Key Points The voltage series of a riometer is accurately modeled by a stochastic process including a harmonic function expansion component The power spectrum estimate for the voltage series contains multiplets centered near the harmonic frequencies of one cycle per sidereal day Several of the detected spectral peak frequencies lie near established solar mode frequency estimates
doi_str_mv 10.1029/2019JA027160
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source Wiley Online Library Journals Frontfile Complete; Wiley Free Content
subjects Advanced Composition Explorer
Astronomy & Astrophysics
cosmic noise
Density
Earth rotation
Electric potential
Estimates
Field strength
Frequency estimation
Harmonic functions
Interplanetary magnetic field
Magnetic fields
multitaper spectral analysis
Opacity
Peak frequency
periodic elements
Periodic variations
Physical Sciences
Power spectra
Protons
riometer
Riometers
Science & Technology
sidereal day
Signal to noise ratio
solar modes
Stochastic processes
Time series
Voltage
title A Characterization of Periodicity in the Voltage Time Series of a Riometer
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