@Article{RempelChiaBoro:2003:ChTeVa,
author = "Rempel, Erico Luiz and Chian, Abraham Chian Long and Borotto
Ch{\'a}vez, F{\'e}lix Aldo",
affiliation = "Univ Adelaide, NITP, World Inst Space Environm Res, Adelaide, SA
5005, Australia and Univ Adelaide, NITP, World Inst Space Environm
Res, Adelaide, SA 5005, Australia and Natl Inst Space Res, INPE,
BR-12227010 Sao Jose Dos Campos, Brazil",
title = "Chaotic temporal variability of magnetospheric radio emissions",
journal = "Space Science Reviews",
year = "2003",
volume = "107",
number = "1-2",
pages = "503--506",
keywords = "chaos, intermittency, magnetosphere, radio emissions, three-wave
interaction.",
abstract = "Nonthermal magnetospheric radio emissions provide the radio
signatures of solar-terrestrial connection and may be used for
space weather forecasting. A three-wave model of auroral radio
emissions at the fundamental plasma frequency was proposed by
Chian et al. (1994) involving resonant interactions of Langmuir,
whistler and Alfven waves. Chaos can appear in the nonlinear
evolution of this three-wave process in the magnetosphere. We
discuss two types of intermittency in radio signals driven by
temporal chaos: the type-I Pomeau-Manneville intermittency and the
interior crisis-induced intermittency. Examples of time series for
both types of intermittency are presented.",
copyholder = "SID/SCD",
issn = "0038-6308",
language = "en",
targetfile = "rempel_chaotic.pdf",
urlaccessdate = "06 maio 2024"
}