Add to ORKGThe Fountain Hills (FH) meteorite was recently classified as a Bencubbin-like (CB(sub a)) chondrite, which are part of the CR clan [1]. The FH O-isotopic composition is indistinguishable from CB(sub a) chondrites. Metal and silicate compositions are consistent with the CB(sub a) classification. Significant differences between FH and the other CB(sub a) chondrites were noted. These include abundant porphyritic chondrules and complete lack of sulfide minerals. We are furthering this investigation by analyzing silicate chondrules and isolated grains in FH to determine more about its composition, thermal history, and implications for chondrule formation in the early solar system
We investigated the inventory of presolar silicate, oxide, and silicon carbide (SiC) grains of fine-...
The formation processes of the unusually metal-rich CB and CH chondrites are highly debated. Chemica...
We have studied the CB carbonaceous chondrites Queen Alexandra Range (QUE) 94411, Hammadah al Hamra ...
We report the results of an extensive study of the Fountain Hills chondritic meteorite. This meteori...
Fountain Hills is a metal-rich chondrite with mineral and whole chondrite oxygen isotope composition...
We describe a new member of the CR chondrite clan and compare it to other members of this group
Primitive chondrite components in six carbonaceous chondrites, Bencubbin, HaH 237, Gujba, Isheyevo, ...
The elemental and isotopic compositions of meteorites are expected to reflect several key processes ...
Fine-grained, heavily-hydrated lithic clasts in the metal-rich (CB) chondrites Queen Alexandra Range...
In this paper, we review the mineralogy and chemistry of Ca, Al-rich inclusions (CAIs), chondrules, ...
This study investigates the pre-accretionary formation conditions of individual minerals within chon...
International audienceBased on the high abundance of fine-grained material and its dark appearance, ...
Abstract: One approach to decipher the dynamics of material transport and planetary accretion in the...
We report on the investigation of presolar grain inventories of hydrated lithic clasts in three meta...
Primitive chondritic meteorites formed at the same time the planets in our solar system were forming...
We investigated the inventory of presolar silicate, oxide, and silicon carbide (SiC) grains of fine-...
The formation processes of the unusually metal-rich CB and CH chondrites are highly debated. Chemica...
We have studied the CB carbonaceous chondrites Queen Alexandra Range (QUE) 94411, Hammadah al Hamra ...
We report the results of an extensive study of the Fountain Hills chondritic meteorite. This meteori...
Fountain Hills is a metal-rich chondrite with mineral and whole chondrite oxygen isotope composition...
We describe a new member of the CR chondrite clan and compare it to other members of this group
Primitive chondrite components in six carbonaceous chondrites, Bencubbin, HaH 237, Gujba, Isheyevo, ...
The elemental and isotopic compositions of meteorites are expected to reflect several key processes ...
Fine-grained, heavily-hydrated lithic clasts in the metal-rich (CB) chondrites Queen Alexandra Range...
In this paper, we review the mineralogy and chemistry of Ca, Al-rich inclusions (CAIs), chondrules, ...
This study investigates the pre-accretionary formation conditions of individual minerals within chon...
International audienceBased on the high abundance of fine-grained material and its dark appearance, ...
Abstract: One approach to decipher the dynamics of material transport and planetary accretion in the...
We report on the investigation of presolar grain inventories of hydrated lithic clasts in three meta...
Primitive chondritic meteorites formed at the same time the planets in our solar system were forming...
We investigated the inventory of presolar silicate, oxide, and silicon carbide (SiC) grains of fine-...
The formation processes of the unusually metal-rich CB and CH chondrites are highly debated. Chemica...
We have studied the CB carbonaceous chondrites Queen Alexandra Range (QUE) 94411, Hammadah al Hamra ...