A method for unmixing magnetic hysteresis loops

Hysteresis loops provide essential information concerning both induced and remanent magnetizations and are an important tool for characterizing magnetic mineral assemblages. Although the hysteresis behavior of mixed natural magnetic assemblages has been a focal point of much recent work, little prog...

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Bibliographic Details
Published in:Journal of Geophysical Research: Solid Earth
Main Authors: Heslop, David, Roberts, Andrew
Format: Article in Journal/Newspaper
Language:unknown
Published: American Geophysical Union
Subjects:
Keywords: data acquisition
hysteresis
isotherm
lacustrine deposit
magnetic anomaly
magnetic method
magnetic mineral
marine sediment
remanent magnetization
rock mechanics
Southern Ocean
Online Access:http://hdl.handle.net/1885/63915
https://doi.org/10.1029/2011JB008859
https://openresearch-repository.anu.edu.au/bitstream/1885/63915/5/f5625xPUB863_2012.pdf.jpg
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Summary:Hysteresis loops provide essential information concerning both induced and remanent magnetizations and are an important tool for characterizing magnetic mineral assemblages. Although the hysteresis behavior of mixed natural magnetic assemblages has been a focal point of much recent work, little progress has been made in unmixing of hysteresis loops into characteristic components. Unmixing strategies can act as cornerstones for interpretation of rock magnetic data and have become popular for characterizing isothermal remanent magnetization acquisition curves. Unmixing of hysteresis loops is, however, a challenging task because the individual component loops in the mixture must meet stringent shape constraints. We present a new technique for decomposing an ensemble of hysteresis loops into a small number of end-members based on linear mixing theory. The end-members are not based on type curves but instead are derived directly from the hysteresis data. Particular attention is paid to the form of the end-members, ensuring they meet the shape constraints expected for hysteresis loops of natural magnetic mineral assemblages. Marine sediments from the Southern Ocean and lake sediments from Butte Valley, northern California, provide case studies on which the proposed unmixing method is tested.

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