J. Hildebrandt scite author profile

Abstract. An intense radio flare on the dMe star AD Leo, observed with the Effelsberg radio telescope and spectrally resolved in a band of 480 MHz centred at 4.85 GHz is analysed. A lower limit of the brightness temperature of the totally right handed polarized emission is estimated as13 K considered to be more probable), which requires a coherent radio emission process. In the interpretation we favour fundamental plasma radiation by mildly relativistic electrons trapped in a hot and dense coronal loop above electron cyclotron maser emission. This leads to densities and magnetic field strengths in the radio source of n ∼ 2 × 10 11 cm −3 and B ∼ 800 G. Quasi-periodic pulsations during the decay phase of the event suggest a loop radius of r ∼ 7 × 10 8 cm. A filamentary corona is implied in which the dense radio source is embedded in hot thin plasma with temperature T ≥ 2 × 10 7 K and density next ≤ 10 −2 n. Runaway acceleration by sub-Dreicer electric fields in a magnetic loop is found to supply a sufficient number of energetic electrons.

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Second‐Harmonic Plasma Radiation of Magnetically Trapped Electrons in Stellar Coronae

Stepanov

Kliem

Krüger

et al. 1999

ApJ

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Solar radio bursts with a spectral flattening at millimeter wavelengths

et al. 1995

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Effective densities and resistivities for acoustic propagation in narrow tubes

Craggs

Hildebrandt

1984

Journal of Sound and Vibration

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The normal incidence absorption coefficient of a matrix of narrow tubes with constant cross-section

Craggs

Hildebrandt

1986

Journal of Sound and Vibration

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J. Hildebrandt

Microwave plasma emission of a flare on AD Leo

Second‐Harmonic Plasma Radiation of Magnetically Trapped Electrons in Stellar Coronae

Solar radio bursts with a spectral flattening at millimeter wavelengths

Effective densities and resistivities for acoustic propagation in narrow tubes

The normal incidence absorption coefficient of a matrix of narrow tubes with constant cross-section

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