Published March 19, 2024 | Version v1
Dataset Open

The magnetic recording stability of vortex state irregularly shaped natural iron oxides: raw data, processing and micromagnetic modelling results

Creators

  • 1. ROR icon Universidade de São Paulo
  • 2. ROR icon University of Edinburgh
  • 3. ROR icon Paul Scherrer Institute
  • 4. Brazilian Center for Research in Energy and Materials

Description

Magnetic minerals, especially those existing within the vortex domain state, serve as the primary natural archives of ancient magnetic fields. In this investigation, we introduce an innovative method to examine the magnetic stability of remanence-bearing minerals. This method involves integrating Synchrotron-based Ptychographic X-ray Computed Nano-tomography (PXCT) with micromagnetic modelling. PXCT, a tomographic technique, is a non-destructive resource, which enables its application to valuable (unique) samples. When applied to a microscopic sample of weakly magnetic carbonate rock, PXCT revealed numerous nanoscopic grains of magnetite/maghemite, each exhibiting diverse morphologies, alongside various non-magnetic minerals present in the rock matrix. Subsequently, micromagnetic models were employed to predict the properties of these grains and investigate the potential impacts of irregular morphologies.

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Additional details

Funding

Fundação de Amparo à Pesquisa do Estado de São Paulo
The Neoproterozoic Earth System and the rise of biological complexity 16/06114-6
Fundação de Amparo à Pesquisa do Estado de São Paulo
Acquisition and chemical remagnetization in carbonates: an evaluation by micromagnetic modeling, laboratory simulations and case studies 21/00861-2
Fundação de Amparo à Pesquisa do Estado de São Paulo
Exploring micromagnetic modelling of highly-detailed three-dimensional finite element meshes: a new pathway to study the properties of remanence carriers in remagnetized carbonates 22/14100-6
Brazilian Synchrotron Light Laboratory
Imaging the carriers of chemical remanent magnetization in carbonate rocks through ptychography 20220316
Paul Scherrer Institute
X-ray ptychographic tomography of nanomagnetic particles in carbonate rocks: a new path to investigate the stability of geomagnetic recorders 20221762
Natural Environment Research Council
NSFGEO-NERC: Transforming understanding of paleomagnetic recording: Insights from experimental observations and numerical predictions NE/S011978/1
Natural Environment Research Council
Thermochemical remanent magnetisations: How do they affect ancient magnetic field intensities from the Earth and Solar System? NE/V001388/1
Natural Environment Research Council
Particles to Planets: Unravelling the history of our magnetic field NE/W006707/1
National Council for Scientific and Technological Development
Aplicação de técnicas analíticas baseadas em síncrotron em nano-escala no estudo de bioassinaturas para Ciências Planetária 310817/2020-0