Authentication of the AR-51 stony meteorite with physical techniques for characterization

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There is evidence for the authentication of the meteoritic sample Ar-51 as a stone meteorite, found in the Arequipa Region, Peru. The analytical techniques used for this study were X-ray fluorescence (XRF), X-ray diractometry (XRD) and room temperature (RT) transmission Mössbauer spectroscopy (TMS),...

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Detalles Bibliográficos
Autores: Cerón, María, Bravo, Jorge
Formato: artículo
Fecha de Publicación:2021
Institución:Universidad Nacional Mayor de San Marcos
Repositorio:Revistas - Universidad Nacional Mayor de San Marcos
Lenguaje:español
OAI Identifier:oai:ojs.csi.unmsm:article/20320
Enlace del recurso:https://revistasinvestigacion.unmsm.edu.pe/index.php/fisica/article/view/20320
Nivel de acceso:acceso abierto
Materia:Ar-51 meteorite
transmission Mössbauer spectroscopy
X-ray difractometry
X-ray fluorescence
albite
pyroxene
magnetite
maghemite
Meteorito Ar-51
espectroscopia Mössbauer de transmisión
difractometría de rayos X
fluorescencia de rayos X
albita
piroxeno
magnetita
maghemita
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spelling Authentication of the AR-51 stony meteorite with physical techniques for characterizationAutenticación del meteorito arenoso AR-51 con técnicas físicas para su caracterizaciónCerón, MaríaBravo, JorgeAr-51 meteoritetransmission Mössbauer spectroscopyX-ray difractometryX-ray fluorescencealbitepyroxenemagnetitemaghemiteMeteorito Ar-51espectroscopia Mössbauer de transmisióndifractometría de rayos Xfluorescencia de rayos XalbitapiroxenomagnetitamaghemitaThere is evidence for the authentication of the meteoritic sample Ar-51 as a stone meteorite, found in the Arequipa Region, Peru. The analytical techniques used for this study were X-ray fluorescence (XRF), X-ray diractometry (XRD) and room temperature (RT) transmission Mössbauer spectroscopy (TMS), The results pertaining the structural phases found by XRD include mainly albite, pyroxene, clinopyroxene, augite, maghemite and magnetite. TMS reveals that its mineralogical composition includes three magnetic sextets and two paramagnetic doublets. Two of the sextets are assigned to cation sites in magnetite: the sextet with the higher hyperne magnetic eld is assigned to an Fe3+ cation A site (tetrahedral position) and the second one is assigned to the B site, which is occupied evenly by Fe3+ and Fe2+ cations (octahedral position); and the third magnetic sextet is assigned to maghemite. The presence of both sites (octahedral and tetrahedral layers) along the (111) direction induces plane superposition which is considered more stable. Two of the paramagnetic doublets are associated with structural Fe2+ cations that could be assigned to subgroups of the pyroxene silicates, and the third doublet is associated to a Fe3+ cation site.Se evidencia la autenticación de la muestra meteoritica Ar-51, como un meteorito arenoso, proveniente de la región de Arequipa, Perú. Las técnicas empleadas para su estudio fueron uorescencia de rayos X (FRX), difracción de rayos X (DRx) y espectroscopia Mössbauer de transmisión (EMT), que registró datos a temperatura de ambiente, (TA). Los resultados de las fases estructurales consisten principalmente de albita, piroxeno, clinopiroxeno, augita, maghemita y magnetita; y EMT, revela que su composición mineralógica contiene tres sextetos magnéticos, de los cuales, 2 de ellos se asignan a los sitios de la magnetita, el primer sexteto correspondiente al campo magnético mayor es asignado al sitio de Fe3+, sitio A (posición tetraedral); el segundo se adjudica al sitio B, donde se alojan los cationes Fe3+ y Fe2+ por igual (posición octaedral) y el tercer sexteto magnético se adjudica a la maghemita; la mezcla de posiciones (capas octaédricas y octaédricas/tetraédricas) a lo largo de la dirección [111] genera superposición de planos, los cuales se consideran más estables y tres dobletes paramagnéticos, de los cuales dos de ellos están asociados con cationes estructurales de Fe2+, que podrían ser adjudicados a los subgrupos del silicato piroxeno y el tercer doblete está asociado al sitio del catión de Fe3+Universidad Nacional Mayor de San Marcos2021-07-02info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdfhttps://revistasinvestigacion.unmsm.edu.pe/index.php/fisica/article/view/2032010.15381/rif.v24i2.20320Revista de Investigación de Física; Vol. 24 No. 2 (2021); 5-10Revista de Investigación de Física; Vol. 24 Núm. 2 (2021); 5-101728-29771605-7724reponame:Revistas - Universidad Nacional Mayor de San Marcosinstname:Universidad Nacional Mayor de San Marcosinstacron:UNMSMspahttps://revistasinvestigacion.unmsm.edu.pe/index.php/fisica/article/view/20320/16667Derechos de autor 2021 María Cerón, Jorge Bravohttps://creativecommons.org/licenses/by-nc-sa/4.0info:eu-repo/semantics/openAccessoai:ojs.csi.unmsm:article/203202021-11-26T15:12:30Z
dc.title.none.fl_str_mv Authentication of the AR-51 stony meteorite with physical techniques for characterization
Autenticación del meteorito arenoso AR-51 con técnicas físicas para su caracterización
title Authentication of the AR-51 stony meteorite with physical techniques for characterization
spellingShingle Authentication of the AR-51 stony meteorite with physical techniques for characterization
Cerón, María
Ar-51 meteorite
transmission Mössbauer spectroscopy
X-ray difractometry
X-ray fluorescence
albite
pyroxene
magnetite
maghemite
Meteorito Ar-51
espectroscopia Mössbauer de transmisión
difractometría de rayos X
fluorescencia de rayos X
albita
piroxeno
magnetita
maghemita
title_short Authentication of the AR-51 stony meteorite with physical techniques for characterization
title_full Authentication of the AR-51 stony meteorite with physical techniques for characterization
title_fullStr Authentication of the AR-51 stony meteorite with physical techniques for characterization
title_full_unstemmed Authentication of the AR-51 stony meteorite with physical techniques for characterization
title_sort Authentication of the AR-51 stony meteorite with physical techniques for characterization
dc.creator.none.fl_str_mv Cerón, María
Bravo, Jorge
author Cerón, María
author_facet Cerón, María
Bravo, Jorge
author_role author
author2 Bravo, Jorge
author2_role author
dc.subject.none.fl_str_mv Ar-51 meteorite
transmission Mössbauer spectroscopy
X-ray difractometry
X-ray fluorescence
albite
pyroxene
magnetite
maghemite
Meteorito Ar-51
espectroscopia Mössbauer de transmisión
difractometría de rayos X
fluorescencia de rayos X
albita
piroxeno
magnetita
maghemita
topic Ar-51 meteorite
transmission Mössbauer spectroscopy
X-ray difractometry
X-ray fluorescence
albite
pyroxene
magnetite
maghemite
Meteorito Ar-51
espectroscopia Mössbauer de transmisión
difractometría de rayos X
fluorescencia de rayos X
albita
piroxeno
magnetita
maghemita
description There is evidence for the authentication of the meteoritic sample Ar-51 as a stone meteorite, found in the Arequipa Region, Peru. The analytical techniques used for this study were X-ray fluorescence (XRF), X-ray diractometry (XRD) and room temperature (RT) transmission Mössbauer spectroscopy (TMS), The results pertaining the structural phases found by XRD include mainly albite, pyroxene, clinopyroxene, augite, maghemite and magnetite. TMS reveals that its mineralogical composition includes three magnetic sextets and two paramagnetic doublets. Two of the sextets are assigned to cation sites in magnetite: the sextet with the higher hyperne magnetic eld is assigned to an Fe3+ cation A site (tetrahedral position) and the second one is assigned to the B site, which is occupied evenly by Fe3+ and Fe2+ cations (octahedral position); and the third magnetic sextet is assigned to maghemite. The presence of both sites (octahedral and tetrahedral layers) along the (111) direction induces plane superposition which is considered more stable. Two of the paramagnetic doublets are associated with structural Fe2+ cations that could be assigned to subgroups of the pyroxene silicates, and the third doublet is associated to a Fe3+ cation site.
publishDate 2021
dc.date.none.fl_str_mv 2021-07-02
dc.type.none.fl_str_mv info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
format article
status_str publishedVersion
dc.identifier.none.fl_str_mv https://revistasinvestigacion.unmsm.edu.pe/index.php/fisica/article/view/20320
10.15381/rif.v24i2.20320
url https://revistasinvestigacion.unmsm.edu.pe/index.php/fisica/article/view/20320
identifier_str_mv 10.15381/rif.v24i2.20320
dc.language.none.fl_str_mv spa
language spa
dc.relation.none.fl_str_mv https://revistasinvestigacion.unmsm.edu.pe/index.php/fisica/article/view/20320/16667
dc.rights.none.fl_str_mv Derechos de autor 2021 María Cerón, Jorge Bravo
https://creativecommons.org/licenses/by-nc-sa/4.0
info:eu-repo/semantics/openAccess
rights_invalid_str_mv Derechos de autor 2021 María Cerón, Jorge Bravo
https://creativecommons.org/licenses/by-nc-sa/4.0
eu_rights_str_mv openAccess
dc.format.none.fl_str_mv application/pdf
dc.publisher.none.fl_str_mv Universidad Nacional Mayor de San Marcos
publisher.none.fl_str_mv Universidad Nacional Mayor de San Marcos
dc.source.none.fl_str_mv Revista de Investigación de Física; Vol. 24 No. 2 (2021); 5-10
Revista de Investigación de Física; Vol. 24 Núm. 2 (2021); 5-10
1728-2977
1605-7724
reponame:Revistas - Universidad Nacional Mayor de San Marcos
instname:Universidad Nacional Mayor de San Marcos
instacron:UNMSM
instname_str Universidad Nacional Mayor de San Marcos
instacron_str UNMSM
institution UNMSM
reponame_str Revistas - Universidad Nacional Mayor de San Marcos
collection Revistas - Universidad Nacional Mayor de San Marcos
repository.name.fl_str_mv
repository.mail.fl_str_mv
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