Add to ORKGWe present observations from the laboratory capture of particles in aerogel. The paper focuses on a possible extraction technique and the bulk mineral characterization of the captured material using non-destructive analytical techniques
The current technique for conducting in situ mass spectroscopic analysis of dust around extraterrest...
The cometary tray of the NASA Stardust spacecraft's aerogel collector was examined to study the dust...
The NASA Stardust mission used silica aerogel slabs to slowly decelerate and capture impinging cosmi...
Aerogel is an ultra-low-density material that can be used to capture small particles incident upon i...
In January 2006, NASA's Stardust mission will return with its valuable cargo of the first cometary d...
Particles of cometary and asteroidal origin collected at source using dedicated capture cell technol...
We will present preliminary results on the nature and size frequency distribution of microcraters th...
The science return of NASA's Stardust Mission with its valuable cargo of cometary debris hinges on t...
We briefly summarise our ongoing efforts to evaluate the success of cometary particle capture by NAS...
The focus of this development effort is to capture dust particles at hypervelocities intact and unme...
Silica aerogel collector tiles have been employed for the collection of particles in low Earth orbit...
Stardust, a NASA Discovery-class mission, was the first sample-return mission to return solid sample...
The primary objective of STARDUST is to collect coma samples from comet 8lP/Wild 2. These samples we...
In 2006, the Stardust spacecraft will return to Earth with cometary and perhaps interstellar dust pa...
Dust particles released from comet 81P/Wild-2 were captured in silica aerogel on-board the STARDUST ...
The current technique for conducting in situ mass spectroscopic analysis of dust around extraterrest...
The cometary tray of the NASA Stardust spacecraft's aerogel collector was examined to study the dust...
The NASA Stardust mission used silica aerogel slabs to slowly decelerate and capture impinging cosmi...
Aerogel is an ultra-low-density material that can be used to capture small particles incident upon i...
In January 2006, NASA's Stardust mission will return with its valuable cargo of the first cometary d...
Particles of cometary and asteroidal origin collected at source using dedicated capture cell technol...
We will present preliminary results on the nature and size frequency distribution of microcraters th...
The science return of NASA's Stardust Mission with its valuable cargo of cometary debris hinges on t...
We briefly summarise our ongoing efforts to evaluate the success of cometary particle capture by NAS...
The focus of this development effort is to capture dust particles at hypervelocities intact and unme...
Silica aerogel collector tiles have been employed for the collection of particles in low Earth orbit...
Stardust, a NASA Discovery-class mission, was the first sample-return mission to return solid sample...
The primary objective of STARDUST is to collect coma samples from comet 8lP/Wild 2. These samples we...
In 2006, the Stardust spacecraft will return to Earth with cometary and perhaps interstellar dust pa...
Dust particles released from comet 81P/Wild-2 were captured in silica aerogel on-board the STARDUST ...
The current technique for conducting in situ mass spectroscopic analysis of dust around extraterrest...
The cometary tray of the NASA Stardust spacecraft's aerogel collector was examined to study the dust...
The NASA Stardust mission used silica aerogel slabs to slowly decelerate and capture impinging cosmi...