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W3089347788 abstract "Rocks have complicated histories and form under various conditions. However, all rocks, terrestrial and extraterrestrial, have been subjected to some form of pressure during their genesis. The effect of pressure (strain) on the magnetic remanence is a largely unexplored problem, with most of the work being focused on the study of meteorites.&#160;In the absence of a magnetic field, subjecting a rock to pressure can demagnetize the natural remanent magnetization (NRM). This loss of magnetic remanence can lead to an underestimation of paleointensities. On the other hand, in the presence of a magnetic field, magnetic minerals can record a pressure remanent magnetization (PRM). The superposition of the remaining NRM and a newly acquired PRM can influence the remanence direction as well as the paleointensity. Since the reconstruction of the temporal changes of Earths&#8217; magnetic relies on robust estimations of direction and intensity, the effects of pressure on the remanence should be taken into account.Here we present a series of experiments that aim to explore the acquisition process of PRMs and their net contribution with respect to the rock&#8217;s original magnetization. Stoichiometric magnetites of four different grain sizes (65 nm, 440 nm, 16.9 &#181;m, and 18.3 &#181;m) and magnetic domain states were subjected to crustal pressures (226, 301, and 376 MPa) in the presence of a magnetic field. Surprisingly, the PRM intensity showed no detectable dependence on grain size. However, because the acquisition of a thermal remanence (TRM) is strongly dependent on particle size,&#160; populations of large multidomain particles can acquire a PRM, which may represent up to 30% of a TRM acquired in the same field.Finally, we will show how the influence of pressure on the magnetic remanence can be visualized by modern magnetic imaging techniques like the quantum diamond microscope (QDM). The QDM has a&#160; ~1 &#181;m maximum spatial resolution that is able to resolve the magnetic fields of individual mineral assemblages with ~10 &#181;m diameter. The high spatial resolution and sensitivity enables us to visualize the changes in magnetic remanence due to pressure cycling and can help to better understand the possible implications for paleomagnetism." @default.
W3089347788 created "2020-10-08" @default.
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W3089347788 date "2020-03-23" @default.
W3089347788 modified "2023-09-27" @default.
W3089347788 title "Under pressure: How pressure affects magnetic remanence" @default.
W3089347788 doi "https://doi.org/10.5194/egusphere-egu2020-915" @default.
W3089347788 hasPublicationYear "2020" @default.
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