Add to ORKGA system is described suitable for remote low power mineralogical analysis of lunar, planetary, or asteroid soils. It includes an X-ray diffractometer, fluorescence spectrometer, and sample preparation system. A one Curie Fe-55 source provides a monochromatic X-ray beam of 5.9 keV. Seeman-Bohlin or focusing geometry is employed in the camera, allowing peak detection to proceed simultaneously at all angles and obviating the need for moving parts. The detector system is an array of 500-600 proportional counters with a wire-spacing of 1 mm. An electronics unit comprising preamplifier, postamplifier, window discriminators, and storage flipflops requiring only 3.5 milliwatts was designed and tested. Total instrument power is less than 5 watts. P...
In situ analysis of rock chemistry is a fundamental tool for exploration of planets. To meet this ne...
The rover Curiosity is conducting X-ray diffraction experiments on the surface of Mars using the Che...
Infrared spectrophotometry evaluated for compositional analysis of lunar and planetary soil
The legacy of planetary X-ray Diffraction (XRD) and X-ray Fluorescence (XRF) began in 1960 when W. P...
The mineralogy of a planetary surface can be used to identify the provenance of soil or sediment and...
The rocks and soils of the moon will be the raw materials for various engineering needs at a lunar b...
Feasibility of applying X-ray diffraction to extraterrestrial exploration of lunar surface and earth...
Our joint research effort was aimed at developing techniques for X-ray diffractometry that was being...
To obtain detailed mineralogy information, the Mars Science Laboratory rover Curiosity carries CheMi...
Remote sensing x-ray and gamma-ray spectrometers can be used to infer elemental composition on atmos...
The rocks and soils of the Moon provide raw materials essential to the successful establishment of a...
An ultra-miniaturised (mass 1.5 kg; volume ~22 × 6 × 12 cm3) instrument which combines X-ray diffrac...
Balanced filters evaluated for performance in X-ray fluorescence analysis of lunar and planetary sur...
By employing an integrated x-ray instrument on a future Mars mission, data obtained will greatly aug...
The study of lunar surface is of prime scientific importance as it preserves record of early geologi...
In situ analysis of rock chemistry is a fundamental tool for exploration of planets. To meet this ne...
The rover Curiosity is conducting X-ray diffraction experiments on the surface of Mars using the Che...
Infrared spectrophotometry evaluated for compositional analysis of lunar and planetary soil
The legacy of planetary X-ray Diffraction (XRD) and X-ray Fluorescence (XRF) began in 1960 when W. P...
The mineralogy of a planetary surface can be used to identify the provenance of soil or sediment and...
The rocks and soils of the moon will be the raw materials for various engineering needs at a lunar b...
Feasibility of applying X-ray diffraction to extraterrestrial exploration of lunar surface and earth...
Our joint research effort was aimed at developing techniques for X-ray diffractometry that was being...
To obtain detailed mineralogy information, the Mars Science Laboratory rover Curiosity carries CheMi...
Remote sensing x-ray and gamma-ray spectrometers can be used to infer elemental composition on atmos...
The rocks and soils of the Moon provide raw materials essential to the successful establishment of a...
An ultra-miniaturised (mass 1.5 kg; volume ~22 × 6 × 12 cm3) instrument which combines X-ray diffrac...
Balanced filters evaluated for performance in X-ray fluorescence analysis of lunar and planetary sur...
By employing an integrated x-ray instrument on a future Mars mission, data obtained will greatly aug...
The study of lunar surface is of prime scientific importance as it preserves record of early geologi...
In situ analysis of rock chemistry is a fundamental tool for exploration of planets. To meet this ne...
The rover Curiosity is conducting X-ray diffraction experiments on the surface of Mars using the Che...
Infrared spectrophotometry evaluated for compositional analysis of lunar and planetary soil