Add to ORKGThe Genesis mission provided samples of solar wind (SW) from different regions on the Sun. These SW regime samples are important in understanding fractionation processes upon formation and acceleration of the SW to ultimately deduce solar composition from SW values. We present He and Ne isotopic and elemental compositions of the bulk SW (SW of entire collection period) and the 3 major SW regimes: slow (from the ecliptic plane, emanating from above streamers), fast (emanating from coronal holes), and coronal mass ejections (CME). At the conference we will also present Ar data
Recent refinement of analysis of ACE/SWICS data (Advanced Composition Explorer/Solar Wind Ion Compos...
The solar wind (SW) is the major source of information to study the solar composition of volatile el...
We analyzed light noble gases in a bulk metallic glass (BMG) that was exposed to solar wind (SW) ir...
The Genesis mission provided samples of solar wind (SW) from different regions on the Sun. These SW...
Determining solar noble gas isotopic ratios are one piece of the puzzle needed to constrain models ...
Determining solar noble gas isotopic ratios are one piece of the puzzle needed to constrain models ...
The Genesis Discovery mission returned solar matter in the form of the solar wind with the goal of o...
We discuss data of light noble gases from the solar wind implanted into a metallic glass target flow...
The Genesis Discovery Mission returned samples of solar matter by exposing ultrapure materials to t...
We present the elemental and isotopic composition of noble gases in the bulk solar wind collected by...
We discuss elemental abundances of noble gases in targets exposed to the solar wind (SW) onboard the...
One of the major goals of the Genesis Mission was to refine our knowledge of the isotopic compositio...
We discuss elemental abundances of noble gases in targets exposed to the solar wind (SW) onboard the...
The Genesis mission collected samples of solar wind: SW) for 853 days and returned them to Earth for...
The Sun preserves a chemical composition of the early solar system except for H, He, and Li because ...
Recent refinement of analysis of ACE/SWICS data (Advanced Composition Explorer/Solar Wind Ion Compos...
The solar wind (SW) is the major source of information to study the solar composition of volatile el...
We analyzed light noble gases in a bulk metallic glass (BMG) that was exposed to solar wind (SW) ir...
The Genesis mission provided samples of solar wind (SW) from different regions on the Sun. These SW...
Determining solar noble gas isotopic ratios are one piece of the puzzle needed to constrain models ...
Determining solar noble gas isotopic ratios are one piece of the puzzle needed to constrain models ...
The Genesis Discovery mission returned solar matter in the form of the solar wind with the goal of o...
We discuss data of light noble gases from the solar wind implanted into a metallic glass target flow...
The Genesis Discovery Mission returned samples of solar matter by exposing ultrapure materials to t...
We present the elemental and isotopic composition of noble gases in the bulk solar wind collected by...
We discuss elemental abundances of noble gases in targets exposed to the solar wind (SW) onboard the...
One of the major goals of the Genesis Mission was to refine our knowledge of the isotopic compositio...
We discuss elemental abundances of noble gases in targets exposed to the solar wind (SW) onboard the...
The Genesis mission collected samples of solar wind: SW) for 853 days and returned them to Earth for...
The Sun preserves a chemical composition of the early solar system except for H, He, and Li because ...
Recent refinement of analysis of ACE/SWICS data (Advanced Composition Explorer/Solar Wind Ion Compos...
The solar wind (SW) is the major source of information to study the solar composition of volatile el...
We analyzed light noble gases in a bulk metallic glass (BMG) that was exposed to solar wind (SW) ir...