TY - JOUR
T1 - Gorerite, CaAlFe11O19, a new mineral of the magnetoplumbite group from the Negev Desert, Israel
AU - Galuskin, Evgeny V.
AU - Krüger, Biljana
AU - Galuskina, Irina O.
AU - Krüger, Hannes
AU - Nejbert, Krzysztof
AU - Vapnik, Yevgeny
N1 - Publisher Copyright:
© 2024 Cambridge University Press. All rights reserved.
PY - 2024/1/1
Y1 - 2024/1/1
N2 - Gorerite, ideally CaAlFe11O19 is a new mineral and M-type hexaferrite of the magnetoplumbite group. It was found in ferrite-rich segregations of esseneite-gehlenite-wollastonite-anorthite melted rock of the 'olive' subunit of pyrometamorphic rocks located near Hatrurim Junction in the Negev Desert, Israel. Within these ferrite-rich segregations up tu 100 μm in size, platy crystals of gorerite up to 50 μm in size intergrow with hibonite, hematite, maghemite, magnesioferrite, dorrite, barioferrite, and andradite, forming aggregates. Additionally, small crystals of gorerite occur within magnesioferrite. Importantly, gorerite did not directly crystallize from the melt. Instead, it emerged through a reaction involving earlier crystallized hibonite and an iron-enriched melt, resulting in the partial or complete replacement of hibonite by gorerite. Gorerite appears grey in the reflected light (R = 18-23%), displaying distinct bireflectance: dark-grey perpendicular to Z, light-grey parallel to Z. Its Raman spectrum exhibits only one strong band at 700 cm-1, which shifts to higher frequencies with increasing Al content. Gorerite crystallizes in the P63/mmc space group, with lattice parameters a = 5.8532(4)Å, c = 22.7730(2)Å, and V = 675.67(7) Å3 with Z = 2. It exhibits a structure characterized by an intercalation of triple spinel-like S-blocks and rock-salt type R-blocks along the hexagonal c-axis.
AB - Gorerite, ideally CaAlFe11O19 is a new mineral and M-type hexaferrite of the magnetoplumbite group. It was found in ferrite-rich segregations of esseneite-gehlenite-wollastonite-anorthite melted rock of the 'olive' subunit of pyrometamorphic rocks located near Hatrurim Junction in the Negev Desert, Israel. Within these ferrite-rich segregations up tu 100 μm in size, platy crystals of gorerite up to 50 μm in size intergrow with hibonite, hematite, maghemite, magnesioferrite, dorrite, barioferrite, and andradite, forming aggregates. Additionally, small crystals of gorerite occur within magnesioferrite. Importantly, gorerite did not directly crystallize from the melt. Instead, it emerged through a reaction involving earlier crystallized hibonite and an iron-enriched melt, resulting in the partial or complete replacement of hibonite by gorerite. Gorerite appears grey in the reflected light (R = 18-23%), displaying distinct bireflectance: dark-grey perpendicular to Z, light-grey parallel to Z. Its Raman spectrum exhibits only one strong band at 700 cm-1, which shifts to higher frequencies with increasing Al content. Gorerite crystallizes in the P63/mmc space group, with lattice parameters a = 5.8532(4)Å, c = 22.7730(2)Å, and V = 675.67(7) Å3 with Z = 2. It exhibits a structure characterized by an intercalation of triple spinel-like S-blocks and rock-salt type R-blocks along the hexagonal c-axis.
KW - Hatrurim, Israel
KW - Raman
KW - gorerite
KW - magnetoplumbite group
KW - new mineral
KW - structure
UR - http://www.scopus.com/inward/record.url?scp=85191233002&partnerID=8YFLogxK
U2 - 10.1180/mgm.2024.30
DO - 10.1180/mgm.2024.30
M3 - Article
AN - SCOPUS:85191233002
SN - 0026-461X
JO - Mineralogical Magazine
JF - Mineralogical Magazine
ER -