First dust measurements with the Solar Orbiter Radio and Plasma Wave instrument
A Zaslavsky, I Mann, J Soucek, A Czechowski… - Astronomy & …, 2021 - aanda.org
Context. Impacts of dust grains on spacecraft are known to produce typical impulsive signals
in the voltage waveform recorded at the terminals of electric antennas. Such signals (as may …
in the voltage waveform recorded at the terminals of electric antennas. Such signals (as may …
Interplanetary dust detection by radio antennas: Mass calibration and fluxes measured by STEREO/WAVES
A Zaslavsky, N Meyer‐Vernet, I Mann… - Journal of …, 2012 - Wiley Online Library
We analyze dust impacts recorded by the S/WAVES radio instrument onboard the two
STEREO spacecraft near 1 AU during the period 2007–2010. The impact of a dust particle …
STEREO spacecraft near 1 AU during the period 2007–2010. The impact of a dust particle …
[HTML][HTML] Dust observations with antenna measurements and its prospects for observations with Parker Solar Probe and Solar Orbiter
The electric and magnetic field instrument suite FIELDS on board the NASA Parker Solar
Probe and the radio and plasma waves instrument RPW on the ESA Solar Orbiter mission …
Probe and the radio and plasma waves instrument RPW on the ESA Solar Orbiter mission …
An analytical model for dust impact voltage signals and its application to STEREO/WAVES data
KR Babic, A Zaslavsky, K Issautier… - Astronomy & …, 2022 - aanda.org
Context. Dust impacts have been observed using radio and wave instruments onboard
spacecraft since the 1980s. Voltage waveforms show typical impulsive signals generated by …
spacecraft since the 1980s. Voltage waveforms show typical impulsive signals generated by …
Solar orbiter radio and plasma waves–time domain sampler: In-flight performance and first results
J Soucek, D Píša, I Kolmasova, L Uhlir, R Lan… - Astronomy & …, 2021 - aanda.org
Context. The Radio and Plasma Waves (RPW) instrument on board Solar Orbiter has been
operating nearly continuously since the launch in February 2020. The Time Domain …
operating nearly continuously since the launch in February 2020. The Time Domain …
Dust observations from Parker Solar Probe: dust ejection from the inner Solar System
I Mann, A Czechowski - Astronomy & Astrophysics, 2021 - aanda.org
Context. The FIELDS instrument onboard Parker Solar Probe (PSP) observes dust impacts
on the spacecraft. The derived dust flux rates suggest that the particles originate from the …
on the spacecraft. The derived dust flux rates suggest that the particles originate from the …
Machine learning detection of dust impact signals observed by the Solar Orbiter
This article presents the results of automatic detection of dust impact signals observed by the
Solar Orbiter–Radio and Plasma Waves instrument. A sharp and characteristic electric field …
Solar Orbiter–Radio and Plasma Waves instrument. A sharp and characteristic electric field …
Effect of the Interplanetary Medium on Nanodust Observations by the Solar Terrestrial Relations Observatory
G Le Chat, K Issautier, A Zaslavsky, F Pantellini… - Solar Physics, 2015 - Springer
Dust particles provide an important part of the matter composing the interplanetary medium;
their mass flux at 1 AU is similar to that of the solar wind. Dust grains of nanometer size …
their mass flux at 1 AU is similar to that of the solar wind. Dust grains of nanometer size …
The near-sun dust environment: initial observations from parker solar probe
Abstract The Parker Solar Probe (PSP) spacecraft has flown into the densest, previously
unexplored, innermost region of our solar system's zodiacal cloud. While PSP does not have …
unexplored, innermost region of our solar system's zodiacal cloud. While PSP does not have …
The origin and dynamics of the interplanetary dust cloud
SF Dermott, S Jayaraman, YL Xu, K Grogan… - AIP conference …, 1996 - pubs.aip.org
Obtaining a model of the zodiacal cloud to predict the flux in a given waveband, in a given
direction, at a given time of the year, to one per cent of the peak brightness, or better, will …
direction, at a given time of the year, to one per cent of the peak brightness, or better, will …