Study of nano dust impacts on STEREO using the S/WAVES instrument A. Zaslavsky, N. Meyer-Vernet, K. Issautier, G. Le Chat and M. Maksimovic LESIA, Observatoire.

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Presentation transcript:

Study of nano dust impacts on STEREO using the S/WAVES instrument A. Zaslavsky, N. Meyer-Vernet, K. Issautier, G. Le Chat and M. Maksimovic LESIA, Observatoire de Paris-Meudon SWG 21 – Dublin

Basics of dust detection with a wave instrument Electric signal measured is basically a function of the charge Q of the plasma cloud + other parameters as : - the temperature of the plasma cloud - the local density of the solar wind plasma - the position of the impact with respect to the antenna -...

Interplanetary dust flux model Flux (10 nm) / Flux (0.2 microns) > 2000 We expect to detect essentially nano-sized dust through wave instrument detection

Signal detected by the wave-form sampler TDS Observations of impacts with a short rise time, and large amplitude (some mV) Coherent with what is expected for a nano-dust signal impact During some periods, we can observe up to 20 signals in a 60 ms sampling time period On the period, around signals were detected on STEREO A and around on STEREO B. STEREO A – X Monopole – Jan 01, 2009 STATISTICAL STUDY

Correlations between antenna signals STEREO A : Two categories of signals are clearly visible : Single-hit on the X antenna (Blue) Triple-hit with a signal of the same order of magnitude on the three antennas (Red) Nred ~ 5000 Nblue ~

Correlations between antenna signals STEREO B : Same picture as for STEREO A with : Single-hits detected on the Z antenna : Effect of Trigger ?? Triple-hit with a signal of the same order of magnitude on the three antennas (Red) Nred ~ 4000 Nblue ~

Typical signals detected for the Single/Triple impacts Single antenna impact characterised by : Vy ~ Vz (STA) Vy,z ~ Vx * 5% (STA) Rise time : Tr ~ 30 microseconds Decay time : Td ~ 1 ms Triple antenna impact characterised by : Vx ~ Vy ~ Vz Rise time : Tr ~ 70 microseconds Decay time : Td ~ 110 microseconds

Time variation of the dust flux (STEREO A) Possibility to determine the impact rate with a good accuracy : the nano-dust are appearing by « bursts » of duration of the order of the month Results consistent with the spectral density time variation on the LFR of S/WAVES (figure from N. Meyer-Vernet et al, 2009)

Conclusions We analyzed the dust impacts detected by the S/WAVES TDS waveform sampler during 3 years ( ) The results obtained in terms of fluxes of detected impacts are improving the previous results obtained with the LFR We showed that the impacts are separable in two categories, that seem to have different physical properties (difference in rise and decay time, difference in the total flux) May the « blue » be nano-dusts and the « reds » be micron-dusts ? Then why the observed ratio does not lie on the interplanetary dust mass distribution ? A more detailed work on the physics of an impact, to enable a better understanding of the signal detected by the antennas is in progress