Aydar 003 CM1/2 #6 – 0,06 g 20,40€ Aydar 003 est une météorite carbonée très fraiche de type CM1/2. C’est un type extrêmement rare, puisque à ce jour seulement 26 météorites de ce type ont été officiellement classifiées. Elle a été découverte dans le Sahara Occidental dans une zone de concentration appelée Aydar. Writeup from MB 108: Aydar 003 27°40’06.09″N, 10°06’25.33″W South, Morocco Purchased: 2018 Classification: Carbonaceous chondrite (CM1/2) History: Found between 2016 and 2018. Bought from Abdelaziz Alhyane. Physical characteristics: Crusted stones. The fusion crust shows a network of cracks. Cut surface reveals dark interior Petrography: (J. Gattacceca, CEREGE) Small altered chondrules (average apparent diameter about 270 µm) and altered mineral fragments and fine grained CAIs set in an abundant fine-grained phyllosilicate-rich matrix (about 75 vol%). Olivine has been almost entirely serpentinized. Opaque minerals are FeS and magnetite. No metal was found. Transmission Infrared spectroscopy (L. Bonal, IPAG) of matrix grains reveals a water and Si-O bands attributable to phyllosilicates. Geochemistry: Olivine is serpentinized, with microprobe totals of 85.9%±1.1% (n=9). Unaltered olivine crystals give Fa1.4 and Fa 17.9 (n=2). Defocused (10 µm) microprobe totals in the matrix 75.5±5.5% (n=7). Classification: Carbonaceous chondrite (CM1/2). Petrologic type 1/2 from the almost total serpentinization of silicates but absence of narrow -OH band typically seen in phyllosilicates of the smectite group commonly observed seen in type 1 chondrites. Possibly paired with NWA 11322 and NWA 8534. Specimens: Type specimen at CEREGE. Main mass with Jean Redelsperger. Ajouter au panier
Out of stock Aydar 003 CM1/2 #5 – 0,05 g 19,20€ Aydar 003 est une météorite carbonée très fraiche de type CM1/2. C’est un type extrêmement rare, puisque à ce jour seulement 26 météorites de ce type ont été officiellement classifiées. Elle a été découverte dans le Sahara Occidental dans une zone de concentration appelée Aydar. Writeup from MB 108: Aydar 003 27°40’06.09″N, 10°06’25.33″W South, Morocco Purchased: 2018 Classification: Carbonaceous chondrite (CM1/2) History: Found between 2016 and 2018. Bought from Abdelaziz Alhyane. Physical characteristics: Crusted stones. The fusion crust shows a network of cracks. Cut surface reveals dark interior Petrography: (J. Gattacceca, CEREGE) Small altered chondrules (average apparent diameter about 270 µm) and altered mineral fragments and fine grained CAIs set in an abundant fine-grained phyllosilicate-rich matrix (about 75 vol%). Olivine has been almost entirely serpentinized. Opaque minerals are FeS and magnetite. No metal was found. Transmission Infrared spectroscopy (L. Bonal, IPAG) of matrix grains reveals a water and Si-O bands attributable to phyllosilicates. Geochemistry: Olivine is serpentinized, with microprobe totals of 85.9%±1.1% (n=9). Unaltered olivine crystals give Fa1.4 and Fa 17.9 (n=2). Defocused (10 µm) microprobe totals in the matrix 75.5±5.5% (n=7). Classification: Carbonaceous chondrite (CM1/2). Petrologic type 1/2 from the almost total serpentinization of silicates but absence of narrow -OH band typically seen in phyllosilicates of the smectite group commonly observed seen in type 1 chondrites. Possibly paired with NWA 11322 and NWA 8534. Specimens: Type specimen at CEREGE. Main mass with Jean Redelsperger. Détails
Out of stock Aydar 003 CM1/2 #4 – 0,06 g 20,40€ Aydar 003 est une météorite carbonée très fraiche de type CM1/2. C’est un type extrêmement rare, puisque à ce jour seulement 26 météorites de ce type ont été officiellement classifiées. Elle a été découverte dans le Sahara Occidental dans une zone de concentration appelée Aydar. Writeup from MB 108: Aydar 003 27°40’06.09″N, 10°06’25.33″W South, Morocco Purchased: 2018 Classification: Carbonaceous chondrite (CM1/2) History: Found between 2016 and 2018. Bought from Abdelaziz Alhyane. Physical characteristics: Crusted stones. The fusion crust shows a network of cracks. Cut surface reveals dark interior Petrography: (J. Gattacceca, CEREGE) Small altered chondrules (average apparent diameter about 270 µm) and altered mineral fragments and fine grained CAIs set in an abundant fine-grained phyllosilicate-rich matrix (about 75 vol%). Olivine has been almost entirely serpentinized. Opaque minerals are FeS and magnetite. No metal was found. Transmission Infrared spectroscopy (L. Bonal, IPAG) of matrix grains reveals a water and Si-O bands attributable to phyllosilicates. Geochemistry: Olivine is serpentinized, with microprobe totals of 85.9%±1.1% (n=9). Unaltered olivine crystals give Fa1.4 and Fa 17.9 (n=2). Defocused (10 µm) microprobe totals in the matrix 75.5±5.5% (n=7). Classification: Carbonaceous chondrite (CM1/2). Petrologic type 1/2 from the almost total serpentinization of silicates but absence of narrow -OH band typically seen in phyllosilicates of the smectite group commonly observed seen in type 1 chondrites. Possibly paired with NWA 11322 and NWA 8534. Specimens: Type specimen at CEREGE. Main mass with Jean Redelsperger. Détails
Out of stock Aydar 003 CM1/2 #3 – 0,06 g 20,40€ Aydar 003 est une météorite carbonée très fraiche de type CM1/2. C’est un type extrêmement rare, puisque à ce jour seulement 26 météorites de ce type ont été officiellement classifiées. Elle a été découverte dans le Sahara Occidental dans une zone de concentration appelée Aydar. Writeup from MB 108: Aydar 003 27°40’06.09″N, 10°06’25.33″W South, Morocco Purchased: 2018 Classification: Carbonaceous chondrite (CM1/2) History: Found between 2016 and 2018. Bought from Abdelaziz Alhyane. Physical characteristics: Crusted stones. The fusion crust shows a network of cracks. Cut surface reveals dark interior Petrography: (J. Gattacceca, CEREGE) Small altered chondrules (average apparent diameter about 270 µm) and altered mineral fragments and fine grained CAIs set in an abundant fine-grained phyllosilicate-rich matrix (about 75 vol%). Olivine has been almost entirely serpentinized. Opaque minerals are FeS and magnetite. No metal was found. Transmission Infrared spectroscopy (L. Bonal, IPAG) of matrix grains reveals a water and Si-O bands attributable to phyllosilicates. Geochemistry: Olivine is serpentinized, with microprobe totals of 85.9%±1.1% (n=9). Unaltered olivine crystals give Fa1.4 and Fa 17.9 (n=2). Defocused (10 µm) microprobe totals in the matrix 75.5±5.5% (n=7). Classification: Carbonaceous chondrite (CM1/2). Petrologic type 1/2 from the almost total serpentinization of silicates but absence of narrow -OH band typically seen in phyllosilicates of the smectite group commonly observed seen in type 1 chondrites. Possibly paired with NWA 11322 and NWA 8534. Specimens: Type specimen at CEREGE. Main mass with Jean Redelsperger. Détails
Out of stock Aydar 003 CM1/2 #2 – 0,07 g 21,60€ Aydar 003 est une météorite carbonée très fraiche de type CM1/2. C’est un type extrêmement rare, puisque à ce jour seulement 26 météorites de ce type ont été officiellement classifiées. Elle a été découverte dans le Sahara Occidental dans une zone de concentration appelée Aydar. Writeup from MB 108: Aydar 003 27°40’06.09″N, 10°06’25.33″W South, Morocco Purchased: 2018 Classification: Carbonaceous chondrite (CM1/2) History: Found between 2016 and 2018. Bought from Abdelaziz Alhyane. Physical characteristics: Crusted stones. The fusion crust shows a network of cracks. Cut surface reveals dark interior Petrography: (J. Gattacceca, CEREGE) Small altered chondrules (average apparent diameter about 270 µm) and altered mineral fragments and fine grained CAIs set in an abundant fine-grained phyllosilicate-rich matrix (about 75 vol%). Olivine has been almost entirely serpentinized. Opaque minerals are FeS and magnetite. No metal was found. Transmission Infrared spectroscopy (L. Bonal, IPAG) of matrix grains reveals a water and Si-O bands attributable to phyllosilicates. Geochemistry: Olivine is serpentinized, with microprobe totals of 85.9%±1.1% (n=9). Unaltered olivine crystals give Fa1.4 and Fa 17.9 (n=2). Defocused (10 µm) microprobe totals in the matrix 75.5±5.5% (n=7). Classification: Carbonaceous chondrite (CM1/2). Petrologic type 1/2 from the almost total serpentinization of silicates but absence of narrow -OH band typically seen in phyllosilicates of the smectite group commonly observed seen in type 1 chondrites. Possibly paired with NWA 11322 and NWA 8534. Specimens: Type specimen at CEREGE. Main mass with Jean Redelsperger. Détails
Out of stock Aydar 003 CM1/2 #1 – 0,05 g 20,40€ Aydar 003 est une météorite carbonée très fraiche de type CM1/2. C’est un type extrêmement rare, puisque à ce jour seulement 26 météorites de ce type ont été officiellement classifiées. Elle a été découverte dans le Sahara Occidental dans une zone de concentration appelée Aydar. Writeup from MB 108: Aydar 003 27°40’06.09″N, 10°06’25.33″W South, Morocco Purchased: 2018 Classification: Carbonaceous chondrite (CM1/2) History: Found between 2016 and 2018. Bought from Abdelaziz Alhyane. Physical characteristics: Crusted stones. The fusion crust shows a network of cracks. Cut surface reveals dark interior Petrography: (J. Gattacceca, CEREGE) Small altered chondrules (average apparent diameter about 270 µm) and altered mineral fragments and fine grained CAIs set in an abundant fine-grained phyllosilicate-rich matrix (about 75 vol%). Olivine has been almost entirely serpentinized. Opaque minerals are FeS and magnetite. No metal was found. Transmission Infrared spectroscopy (L. Bonal, IPAG) of matrix grains reveals a water and Si-O bands attributable to phyllosilicates. Geochemistry: Olivine is serpentinized, with microprobe totals of 85.9%±1.1% (n=9). Unaltered olivine crystals give Fa1.4 and Fa 17.9 (n=2). Defocused (10 µm) microprobe totals in the matrix 75.5±5.5% (n=7). Classification: Carbonaceous chondrite (CM1/2). Petrologic type 1/2 from the almost total serpentinization of silicates but absence of narrow -OH band typically seen in phyllosilicates of the smectite group commonly observed seen in type 1 chondrites. Possibly paired with NWA 11322 and NWA 8534. Specimens: Type specimen at CEREGE. Main mass with Jean Redelsperger. Détails