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Auto-correlation function and frequency spectrum due to a super-position of uncorrelated exponential pulses

Permanent lenke
https://hdl.handle.net/10037/10894
DOI
https://doi.org/10.1063/1.4978955
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article.pdf (1.566Mb)
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Dato
2017-03
Type
Peer reviewed
Journal article
Tidsskriftsartikkel

Forfatter
Garcia, Odd Erik; Theodorsen, Audun
Sammendrag
The auto-correlation function and the frequency power spectral density due to a super-position of uncorrelated exponential pulses are considered. These are shown to be independent of the degree of pulse overlap and thereby the intermittency of the stochastic process. For constant pulse duration and a one-sided exponential pulse shape, the power spectral density has a Lorentzian shape which is flat for low frequencies and a power law at high frequencies. The algebraic tail is demonstrated to result from the discontinuity in the pulse function. For a strongly asymmetric two-sided expo- nential pulse shape, the frequency spectrum is a broken power law with two scaling regions. In the case of a symmetric pulse shape, the power spectral density is the square of a Lorentzian function. The steep algebraic tail at high frequencies in these cases is demonstrated to follow from the discontinuity in the derivative of the pulse function. A random distribution of pulse durations is shown to result in apparently longer correlation times but has no influence on the asymptotic power law tail of the frequency spectrum. The effect of additional random noise is also discussed, leading to a flat spectrum for high frequencies. The probability density function for the fluctuations is shown to be independent of the distribution of pulse durations. The predictions of this model describe the variety of auto-correlation functions and power spectral densities reported from experimental measurements in the scrape-off layer of magnetically confined plasmas.
Beskrivelse
Link to publishers version: 10.1063/1.4978955
Sitering
Garcia OE, Theodorsen A. Auto-correlation function and frequency spectrum due to a super-position of uncorrelated exponential pulses. Physics of Plasmas 2017;24;032309
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