RHESSI 4-8 April 06 Origin of > 100 GHz radio emission Gérard Trottet Laboratoire d’Etudes Spatiale et d’Instrumentation en Astrophysique (LESIA) Observatoire.

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Presentation transcript:

RHESSI 4-8 April 06 Origin of > 100 GHz radio emission Gérard Trottet Laboratoire d’Etudes Spatiale et d’Instrumentation en Astrophysique (LESIA) Observatoire de Paris

RHESSI 4-8 April 06 First observations of solar flares at ≤ 1 mm (SST) X and cm- : typical impulsive flare impulsive 202 GHz (SST): HF of the synchrotron spectrum = HE part of the e - spectrum   2 ce (  HF spectrum= measure of the extent of the e - energy spectrum) time-extended phase (thermal ?) Trottet et al A&A

RHESSI 4-8 April 06

Trottet et al Vilmer et al Spectral index > 1 MeV: ~ with No longitude effect Rieger et al. 1998

RHESSI 4-8 April 06 Peak c from HXR/GR  = 4.1 for E<Eb  = 1.5 for E>Eb -observed  = 1.5 Peak d - from HXR/GR  = 2.7 for E<Eb  = 1.2 for E>Eb -observed  = 1.3 Peak a  = 1.5 Trottet et al. 1998

RHESSI 4-8 April 06 > MeV GR continuum and cm-mm radio emission produced by the same population of relativistic e- (e.g. Trottet et al. 1998, 2000). Radio is thus a sensitive diagnostic of relativistic e-: - relativistic electrons are produced even in small flares (BIMA, Kundu et al.) - consistent with production of relativistic electrons since the very beginning of a flare - sub-second time structures correlated at HXR and mm wavelengths: fast acceleration of both non relativistic an relativistic e- (Kaufmann et al. 2000) HOWEVER !

RHESSI 4-8 April Nov 4 gs

RHESSI 4-8 April 06 Luethi et al A&A Trottet et al Oct 28 Gs spectr.  345 GHz Impulsive burst B at 210 starts when the > 10 MeV GR spectrum hardens Above 210 GHz The radio spectrum Increases with freq. Gs+term (corona) up to ≈ 200 GHz but increasing spect. at higher freq. ?

RHESSI 4-8 April 06 Increasing spectra above 200 GHz ? Optically thick gs. From e -  compact and very dense sources with high magnetic field: unrealistic numbers of high energy electrons! gs. from positrons (Lingenfelter & Ramaty 1967) Inverse Compton/gs (Kaufmann et al. 1986) Thermal: optically thick free-free emission: energy deposition in the chromosphere by particles or conduction fronts

RHESSI 4-8 April ctober 28 Trottet et al. 2006

RHESSI 4-8 April MeV50 MeV SST TIR Example of gs from positrons (Lingenfelter & Ramaty 1967) B=400 G BB

RHESSI 4-8 April 06 Microwaves: gyro-synch. emis, non thermal e - SMESE