Add to ORKGThe Smoke Particle Impact Detector (SPID) was flown on the G-Chaser student rocket that was launched from Andøya on 13 January 2019. SPID is a Faraday cup instrument with applied bias voltages to deflect the ambient plasma and a target area inside the probe designed to measure the dust particles by charge detection. The charging process of the dust particles in the detector is important for interpretation of the measurements and the influence of the charging models is discussed. Preliminary analysis of the SPID observations shows that ambient plasma and sunlight had an influence on the signals; further analysis is needed to retrieve information on impacting dust from the data
The Geostationary Orbit Impact Detector, GORID, is a dust impact plasma detector flying aboard the R...
International audienceInterplanetary Dust Particles (IDPs) consist of the pummeled remnants of aster...
Electrified aerosols have been previously detected in the troposphere and mesosphere, not only durin...
Smoke Particle Impact Detector (SPID) is a faraday cup impact probe designed and built by the Univer...
The Smoke Particle Impact Detector (SPID), newly designed at the University of Tromsø, was launched ...
We present a new method of analyzing measurements of mesospheric dust made with DUSTY rocket-borne F...
The dust probe DUSTY, first launched during the summer of 1994 (flights ECT–02 and ECT&ndash...
The Cosmic Dust/Space Debris impact detector GORID has now collected data for more than 3 years from...
Hypervelocity impacts of micrometeoroid and space debris particles can produce a highly transient pl...
The Galileo Dust Detector is intended to provide direct observations of dust grains with masses betw...
Dust is an almost ubiquitous component of the cosmic plasma (e.g., planetary and cometary magnetosph...
International audienceContext. Impacts of dust grains on spacecraft are known to produce typical imp...
Large amounts of meteoric particles ablate globally into the Earth’s atmosphere each day, and they i...
Electrified aerosols have been previously detected in the troposphere and mesosphere, not only durin...
On the secondary charging effects and structure of mesospheric dust particles impacting on rocket pr...
The Geostationary Orbit Impact Detector, GORID, is a dust impact plasma detector flying aboard the R...
International audienceInterplanetary Dust Particles (IDPs) consist of the pummeled remnants of aster...
Electrified aerosols have been previously detected in the troposphere and mesosphere, not only durin...
Smoke Particle Impact Detector (SPID) is a faraday cup impact probe designed and built by the Univer...
The Smoke Particle Impact Detector (SPID), newly designed at the University of Tromsø, was launched ...
We present a new method of analyzing measurements of mesospheric dust made with DUSTY rocket-borne F...
The dust probe DUSTY, first launched during the summer of 1994 (flights ECT–02 and ECT&ndash...
The Cosmic Dust/Space Debris impact detector GORID has now collected data for more than 3 years from...
Hypervelocity impacts of micrometeoroid and space debris particles can produce a highly transient pl...
The Galileo Dust Detector is intended to provide direct observations of dust grains with masses betw...
Dust is an almost ubiquitous component of the cosmic plasma (e.g., planetary and cometary magnetosph...
International audienceContext. Impacts of dust grains on spacecraft are known to produce typical imp...
Large amounts of meteoric particles ablate globally into the Earth’s atmosphere each day, and they i...
Electrified aerosols have been previously detected in the troposphere and mesosphere, not only durin...
On the secondary charging effects and structure of mesospheric dust particles impacting on rocket pr...
The Geostationary Orbit Impact Detector, GORID, is a dust impact plasma detector flying aboard the R...
International audienceInterplanetary Dust Particles (IDPs) consist of the pummeled remnants of aster...
Electrified aerosols have been previously detected in the troposphere and mesosphere, not only durin...