Add to ORKGFive hundred stony cosmic spherules collected from deep-sea sediments, polar ice, and the stratosphere have been analyzed for major and some minor element composition. Typical spherules are products of atmospheric melting of millimeter sized and smaller meteoroids. The samples are small and modified by atmospheric entry, but they are an important source of information on the composition of asteroids. The spherules in this study were all analyzed in an identical Manner, and they provide a sampling of the solar system\u27s asteroids that is both different and less biased than provided by studies of conventional meteorites. Volatile ...
Cosmic spherules are micrometeorites that melt at high altitude as they enter Earth's atmosphere and...
Low energy solar wind (SW) and solar energetic particles (SEP) interact with material exposed on the...
Linking meteorites to their asteroid parent bodies remains an outstanding issue. Space-based dust ch...
Five hundred stony cosmic spherules collected from deep-sea sediments, polar ice, an...
Five hundred stony cosmic spherules collected from deep-sea sediments, polar ice, and the stratosphe...
Herzog et al. have determined Fe, Ni, and Cr abundances in Type I cosmic spherules recovered from th...
Asteroids may contain a record of heliocentric gradients in the material that formed the Solar Syste...
Micrometeorites (MMs) provide constraints on the flux and sources of extraterrestrial dust falling o...
Microscopic spherules (100-1000 micrometers) have been found in glacial moraine deposits in Antarcti...
The high-temperature materials in chondritic meteorites, the chondrules (silicate spherules produced...
Microscopic spherules (100-1000 micrometers) have been found in glacial moraine deposits in Antarcti...
More robust links need to be forged between meteorites and their parent bodies to understand the com...
We present major and trace element data of five glass cosmic spherules (CS) with differentiated comp...
A long-standing controversy in the micrometeorite community regards the relative contribution of pri...
dated deep-sea cores, should provide a test of whether or not cosmic spherules originate in asteroid...
Cosmic spherules are micrometeorites that melt at high altitude as they enter Earth's atmosphere and...
Low energy solar wind (SW) and solar energetic particles (SEP) interact with material exposed on the...
Linking meteorites to their asteroid parent bodies remains an outstanding issue. Space-based dust ch...
Five hundred stony cosmic spherules collected from deep-sea sediments, polar ice, an...
Five hundred stony cosmic spherules collected from deep-sea sediments, polar ice, and the stratosphe...
Herzog et al. have determined Fe, Ni, and Cr abundances in Type I cosmic spherules recovered from th...
Asteroids may contain a record of heliocentric gradients in the material that formed the Solar Syste...
Micrometeorites (MMs) provide constraints on the flux and sources of extraterrestrial dust falling o...
Microscopic spherules (100-1000 micrometers) have been found in glacial moraine deposits in Antarcti...
The high-temperature materials in chondritic meteorites, the chondrules (silicate spherules produced...
Microscopic spherules (100-1000 micrometers) have been found in glacial moraine deposits in Antarcti...
More robust links need to be forged between meteorites and their parent bodies to understand the com...
We present major and trace element data of five glass cosmic spherules (CS) with differentiated comp...
A long-standing controversy in the micrometeorite community regards the relative contribution of pri...
dated deep-sea cores, should provide a test of whether or not cosmic spherules originate in asteroid...
Cosmic spherules are micrometeorites that melt at high altitude as they enter Earth's atmosphere and...
Low energy solar wind (SW) and solar energetic particles (SEP) interact with material exposed on the...
Linking meteorites to their asteroid parent bodies remains an outstanding issue. Space-based dust ch...