Add to ORKGThe chemical composition of the Sun provides the reference standard for a wide variety of astronomical, cosmochemical, and geochemical studies. To better determine the solar composition, the Genesis spacecraft collected solar wind at the L1 point in the space for 27 months prior to returning samples to Earth in September 2004. Prior ion probe analyses of Genesis samples have found discrepant results for the Mg and Fe solar wind fluences from different collector materials [1]. We report measurements of Mg, Fe, and Cr depth profiles in Genesis diamond-like C sample 60062 using the Carnegie Institution Cameca NanoSIMS 50L ion microprobe. Our results for Mg and Fe are similar to previous analyses of the same sample using different ins...
Determining solar noble gas isotopic ratios are one piece of the puzzle needed to constrain models ...
We use Advanced Composition Explorer (ACE)/Solar Wind Ion Composition Spectrometer (SWICS) elemental...
The Genesis mission provided samples of solar wind (SW) from different regions on the Sun. These SW...
The chemical composition of the Sun provides the reference standard for a wide variety of astronomi...
Our Sun holds most of the mass of the solar system (99.9%) and its chemical and isotopic compositio...
The chemical composition of the Sun provides the reference standard for a wide variety of astronomic...
We present elemental abundance data of C, N, O, Na, Mg, Al, Ca, and Cr in Genesis silicon targets. F...
To meet the Genesis mission goal for improved solar elemental abundances, we need to address the iss...
The UCLA ion microprobe facility is partially supported by a grant from the NSF Instrumentation and ...
The Genesis Discovery Mission returned samples of solar matter by exposing ultrapure materials to t...
The samples returned to Earth by the Genesis mission of NASA’s Discovery Program contain a record o...
NASA's Genesis mission was flown to capture samples of the solar wind and return them to the Earth f...
We discuss data of light noble gases from the solar wind implanted into a metallic glass target flow...
The Genesis Discovery mission returned solar matter in the form of the solar wind with the goal of o...
In order to deduce the isotopic compositions in the solar nebula of volatile elements, e.g., noble ...
Determining solar noble gas isotopic ratios are one piece of the puzzle needed to constrain models ...
We use Advanced Composition Explorer (ACE)/Solar Wind Ion Composition Spectrometer (SWICS) elemental...
The Genesis mission provided samples of solar wind (SW) from different regions on the Sun. These SW...
The chemical composition of the Sun provides the reference standard for a wide variety of astronomi...
Our Sun holds most of the mass of the solar system (99.9%) and its chemical and isotopic compositio...
The chemical composition of the Sun provides the reference standard for a wide variety of astronomic...
We present elemental abundance data of C, N, O, Na, Mg, Al, Ca, and Cr in Genesis silicon targets. F...
To meet the Genesis mission goal for improved solar elemental abundances, we need to address the iss...
The UCLA ion microprobe facility is partially supported by a grant from the NSF Instrumentation and ...
The Genesis Discovery Mission returned samples of solar matter by exposing ultrapure materials to t...
The samples returned to Earth by the Genesis mission of NASA’s Discovery Program contain a record o...
NASA's Genesis mission was flown to capture samples of the solar wind and return them to the Earth f...
We discuss data of light noble gases from the solar wind implanted into a metallic glass target flow...
The Genesis Discovery mission returned solar matter in the form of the solar wind with the goal of o...
In order to deduce the isotopic compositions in the solar nebula of volatile elements, e.g., noble ...
Determining solar noble gas isotopic ratios are one piece of the puzzle needed to constrain models ...
We use Advanced Composition Explorer (ACE)/Solar Wind Ion Composition Spectrometer (SWICS) elemental...
The Genesis mission provided samples of solar wind (SW) from different regions on the Sun. These SW...