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  • 1
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    Separation of magnetic subfabrics by high-field, lowtemperature torque measurements (2010)
    Universitätsverlag Göttingen
    Details
    Publication Date: 2021-03-29
    Description: The anisotropy of magnetic susceptibility (AMS) can serve as a good indicator of strain in deformed carbonate rocks with diamagnetic susceptibility (Owens and Rutter 1978; de Wall 2000). However, the magnetic fabric due to the diamagnetic carbonate minerals is usually very weak and interpretation of the AMS in these rocks is often complicated by the presence of paramagnetic and ferromagnetic phases which overprint the diamagnetic subfabric. For this reason contributions from ferromagnetic and paramagnetic minerals to the AMS should be separated for a reliable interpretation of the AMS. Ferromagnetic contributions to the AMS can be separated by high-field measurements, using a torque magnetometer (Martin- Hernandez and Hirt 2001). The remaining paramagnetic and diamagnetic contributions can be discriminated by their different temperature dependencies. The paramagnetic susceptibility increases as an inverse function of temperature, whereas the diamagnetic part remains constant. Altogether, AMS measurements at high fields and low temperatures allow for the discrimination of all three subfabrics. Test measurements with the high-field torque magnetometer at liquid nitrogen temperature were performed. It is possible to keep the specimens at low temperature over the measurement period using a cryostat. The main problem is the suppression of mechanical disturbances during the measurement so that the sensitivity of the instrument is retained. The torque of paramagnetic minerals increases strongly at low temperature which results in an amplification of the paramagnetic subfabric. The quantitative separation of diamagnetic and paramagnetic subfabric is under investigation. The result is promising when there is a significant diamagnetic signal.
    Description: conference
    Keywords: 551 ; TQB 000 ; TOT 310 ; VAE 120 ; Erdmagnetische Verfahren {Geophysik} ; Gesteinsmagnetismus {Geophysik} ; Methodik {Strukturgeologie} ; Magnetische Suszeptibilität ; Drehmagnetometer
    Language: German
    Type: anthologyArticle , publishedVersion
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  • 2
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    Correlation of magnetic fabric and crystallographic preferred orientations of naturally deformed carbonate — mica rocks from the Alpi Apuane in Italy and the Damara Orogen in Namibia (2010)
    Universitätsverlag Göttingen
    Details
    Publication Date: 2021-03-29
    Description: The anisotropy of magnetic susceptibility (AMS) is a time-efficient method to describe crystallographic preferred orientations of rocks and has been applied in a wide field of sedimentary, metamorphic and magmatic geology. The method, however, suffers from limitations which mainly result from the interference of diamagnetic, paramagnetic and ferromagnetic fabrics (de Wall 2005) — the term ferromagnetism is used in a wider sense here, including e.g. ferrimagnetism. The AMS is an integral parameter which describes a crystallographic preferred orientation as an ellipsoid. The quantitative correlation of the AMS with the crystallographic preferred orientations should help to allow a closer view at the applicability and the limitations of the AMS analysis (see also Schmidt et al. 2006 a, b)... The results of this study are based on a large variety of fabric types of carbonate-mica marbles and mylonites, i.e. varying mica content, grain sizes, grain shapes, types and intensities of the crystallographic preferred orientation. The presented first correlations of the AMS and CPO for the single mineral phases in general demonstrate a good matching. Regarding the comparison of texture types and the AMS, limitations are possible. While single c-axis maxima and girdle-like c-axis distributions can be also distinguished by the AMS, it is obvious that distinguishing between these types and the double c-axis type is not possible at the present stage.
    Description: conference
    Keywords: 551 ; TOT 310 ; VKA 200 ; VAE 140 ; VEF 200 ; VER 200 ; VKB 270 ; VAE 120 ; Gesteinsmagnetismus {Geophysik} ; Gefügekunde der Gesteine ; Gesteinsdeformation {Strukturgeologie} ; Italien {Geologie} ; Namibia {Geologie} ; Produkte mechanischer Deformation {Petrologie} ; Methodik {Strukturgeologie} ; Apuaner Alpen ; Damara Orogen ; Karbonatgestein ; Deformation 〈Geologie〉 ; Magnetische Suszeptibilität ; Kristallorientierung ; Korrelationsanalyse
    Language: German
    Type: anthologyArticle , publishedVersion
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  • 3
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    Measurement of calcite crystallographic-preferred orientations by magnetic anisotropy and comparison to diffraction methods (2010)
    Universitätsverlag Göttingen
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    Publication Date: 2021-03-29
    Description: The anisotropy of magnetic susceptibility (AMS) of rocks reflects the preferred orientations of minerals. Therefore AMS is a quick and easy way to characterize rock fabrics (Hrouda 1982,Borradaile 1988); the obtained result is also called the magnetic fabric of the rock. The method has been often used to measure the orientation of ferromagnetic minerals, mainly magnetite, but in recent studies it has been increasingly used to measure textures of paramagnetic minerals as phyllosilicates (Lüneburg et al. 1999, Cifelli et al. 2004). A further application is the measurement of diamagnetic textures, especially calcite textures. Calcite is suitable for the AMS method, because it has a high magnetic anisotropy with the minimum susceptibility along the crystallographic c-axis. Therefore a preferred orientation of the c-axes, which can be induced by deformation, generates a magnetic fabric...
    Description: conference
    Keywords: 551 ; VKA 200 ; VAE 120 ; TQB 000 ; TOT 310 ; VGA 410 ; Gefügekunde der Gesteine ; Methodik {Strukturgeologie} ; Erdmagnetische Verfahren {Geophysik} ; Gesteinsmagnetismus {Geophysik} ; Röntgenanalyse {Mineralogie: Kristallographie} ; Calzit ; Magnetische Suszeptibilität ; Kristallorientierung ; Röntgendiffraktometrie ; Neutronendiffraktometrie ; Vergleichsmessung
    Language: German
    Type: anthologyArticle , publishedVersion
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  • 4
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    Magnetic fabric in ilmeniterich norites of the Bjerkreimer-Sokndal Layered Intrusion, Norway (2010)
    Universitätsverlag Göttingen
    Details
    Publication Date: 2021-03-29
    Description: The Bjerkreim-Sokndal (BKS) is a layered intrusion, located in the Mid- Proterozoic Egersund anorthosite-norite province within the Sveconorwegian province of the Baltic Shield, south Norway. The layered intrusion formed by influxes of more primitive magma into more evolved magma to produce six Megacyclic units (MCU), each of which can be divided into up to six subunits. From bottom to top in each megacycle the rocks consist of early plagioclase-rich norites, intermediate hemo-ilmenite-rich norites and later magnetite-rich norites. Aeromagnetic maps over the intrusion show large negative and positive anomalies. A negative anomaly with amplitude to - 13000 nT at 60m above ground is associated with hemo-ilmenite-rich norite layer MCU Ive. This layer IVe contains plagioclase, orthopyroxene, hemoilmenite, magnetite, and minor clinopyroxene, biotite, apatite and sulfides. Multi-domain (MD) magnetite makes up 2–3% of the rock. The negative magnetic anomaly associated with MCU IVe reaches its most negative value on the east limb of the Bjerkreim Lobe near Heskestad. The anomaly at Heskestad is part of a longer negative anomaly, which follows MCU IVe for more than 20 km around a large syncline. The average NRM intensity decreases from 25AM−1 along the east fold limb to 10AM−1 towards the hinge area to 7AM−1 at the hinge. The BKS has a penetrative deformation fabric within the syncline with the weakest deformation found in the hinge area and the strongest on the east limb. Electron backscatter diffraction (EBSD) was used to determine the lattice-preferred orientation (LPO) of orthopyroxene and ilmenite. The (100)-planes of the orthopyroxenes are found to lie parallel to a foliation in the rock, which is subparallel to the cumulate layering. Orthopyroxene c-axes form the steep lineation within the foliation plane. The anisotropy of magnetic susceptibility (AMS) was measured for samples that were taken at five locations from the eastern limb to the hinge area of the syncline to investigate if the change in NRM intensity could be related to magnetic fabric.
    Description: conference
    Keywords: 551 ; TOT 310 ; TOT 320 ; TSD 000 ; VKB 115 ; VKA 200 ; VED 300 ; VAC 200 ; Gesteinsmagnetismus {Geophysik} ; Paläomagnetismus {Geophysik} ; Nordeuropa {Geophysik} ; Ultramafite {Petrologie} ; Gefügekunde der Gesteine ; Norwegen {Geologie} ; Plutonismus {Geologie} ; Norwegen ; Bjerkreim 〈Region〉 ; Proterozoikum ; Norit ; Magnetische Suszeptibilität ; Paläomagnetismus
    Language: German
    Type: anthologyArticle , publishedVersion
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