2016
DOI: 10.1051/0004-6361/201628306
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Empirical mode decomposition analysis of random processes in the solar atmosphere

Abstract: Context. Coloured noisy components with a power law spectral energy distribution are often shown to appear in solar signals of various types. Such a frequency-dependent noise may indicate the operation of various randomly distributed dynamical processes in the solar atmosphere. Aims. We develop a recipe for the correct usage of the empirical mode decomposition (EMD) technique in the presence of coloured noise, allowing for clear distinguishing between quasi-periodic oscillatory phenomena in the solar atmospher… Show more

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Cited by 57 publications
(65 citation statements)
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“…The short-term intrinsic periodicities in the solar proxies appear to be indicative of "randomly distributed dynamical processes in the solar atmosphere" that are closely related to the 11-year solar activity and therefore, unsurprisingly, the high-frequency modes are found to be modulated by this latter cycle (Kolotkov et al, 2016). But this phenomenon is not limited to solar activity signals and has also been identified in surface air temperature records (Paluš, 2014), and time series of the sea level (Liu et al, 2007), and may indicate crossscale nonlinear couplings (Paluš, 2014;Huang et al, 2016).…”
Section: Amplitude Modulation Through Nonlinear Cross-scale Couplingmentioning
confidence: 98%
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“…The short-term intrinsic periodicities in the solar proxies appear to be indicative of "randomly distributed dynamical processes in the solar atmosphere" that are closely related to the 11-year solar activity and therefore, unsurprisingly, the high-frequency modes are found to be modulated by this latter cycle (Kolotkov et al, 2016). But this phenomenon is not limited to solar activity signals and has also been identified in surface air temperature records (Paluš, 2014), and time series of the sea level (Liu et al, 2007), and may indicate crossscale nonlinear couplings (Paluš, 2014;Huang et al, 2016).…”
Section: Amplitude Modulation Through Nonlinear Cross-scale Couplingmentioning
confidence: 98%
“…In Sect. 5.1, evidence is presented that the spectral band spanning from 2 to 300 days seems to be composed mostly of random realizations of stochastic background processes, which can be modeled following, e.g., Flandrin et al (2004a), Rilling et al (2005), Welter and Esquef (2013), and Kolotkov et al (2016).…”
Section: The Intrinsic Timescales Of Variability In the Ssimentioning
confidence: 99%
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“…For instance, α = 0 corresponds to the case of white noise (with constant Fourier power S and E × P = constant), α = 1 is the pink (flicker) noise. Kolotkov, Anfinogentov & Nakariakov (2016) developed the EMD technique in the presence of coloured noise, allowing for clear distinguishing between quasi-periodic oscillatory phenomena in the solar atmosphere and superimposed random background processes; these results are given below with the derived periods given in the final plot for each flare.…”
Section: Empirical Mode Decomposition (Emd)mentioning
confidence: 99%
“…Lee et al 2015;Deng et al 2015;Qu et al 2015;Kolotkov et al 2015;Käpylä et al 2016;Xiang & Qu 2016, for the recent results). Testing the significance of the identified empirical modes with the approach developed in Wu & Huang (2004) and Kolotkov et al (2016), we managed to distinguish the white and pink noisy components superimposed and a single significant oscillatory mode.…”
Section: Introductionmentioning
confidence: 99%