Nonlinear Preisach maps: Detecting and characterizing separate remanent magnetic fractions in complex natural samples
Permanent lenke
https://hdl.handle.net/10037/26499Dato
2016-10-27Type
Journal articleTidsskriftartikkel
Peer reviewed
Sammendrag
Natural remanent magnetization carriers in rocks can contain mixtures of magnetic minerals that interact in complex ways and are challenging to characterize by current measurement techniques. Here a nonlinear mapping scheme is described that efficiently enhances sensitivity and the resolution power of remanent Preisach maps. Using this scheme a large dynamic range of magnetic moments and coercivities can be reliably resolved. The method is applied to synthetic and natural standard samples containing magnetite and hematite, as well as to natural samples from remanent magnetic anomalies where complex microstructures are observed. It is shown that certain offset high-coercivity patterns in remanent Preisach maps may serve as fingerprints for exsolution structures of ilmenite in hematite or hematite in ilmenite and that in some magnetite-bearing remanent anomalies the magnetite coercivity is increased beyond its intrinsic coercivity range. Experimental results and theoretical considerations indicate a minimal coercivity of about 10 mT for single-domain (SD) magnetite, such that observation of lower coercivities implies pseudo-SD (PSD) or multidomain grain sizes. A diagnostic hematite pattern with a peak downward offset of 17 ± 2% of the intrinsic coercivity is found that is stable over a large range of intrinsic coercivities and may be related to shielding of internal defect or lamellar moments by a spin canting response to the internal field.
Forlag
American Geophysical Union (AGU)Sitering
Church NS, Fabian K, McEnroe S. Nonlinear Preisach maps: Detecting and characterizing separate remanent magnetic fractions in complex natural samples. Journal of Geophysical Research (JGR): Solid Earth. 2016;121(12):8373-8395Metadata
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