Related references
Note: Only part of the references are listed.Lamellar magnetism and exchange bias in billion-year-old titanohematite with nanoscale ilmenite exsolution lamellae: I. Mineral and magnetic characterization
Suzanne A. McEnroe et al.
GEOPHYSICAL JOURNAL INTERNATIONAL (2016)
Influence of lattice-preferred orientation with respect to magnetizing field on intensity of remanent magnetization in polycrystalline hemo-ilmenite
P. Robinson et al.
GEOPHYSICAL JOURNAL INTERNATIONAL (2013)
Spin orientation in a natural Ti-bearing hematite: Evidence for an out-of-plane component
Richard J. Harrison et al.
AMERICAN MINERALOGIST (2010)
The application of Lorentz transmission electron microscopy to the study of lamellar magnetism in hematite-ilmenite
Takeshi Kasama et al.
AMERICAN MINERALOGIST (2009)
High efficiency of natural lamellar remanent magnetisation in single grains of ilmeno-hematite calculated using Mossbauer spectroscopy
Catherine A. McCammon et al.
EARTH AND PLANETARY SCIENCE LETTERS (2009)
Exchange bias identifies lamellar magnetism as the origin of the natural remanent magnetization in titanohematite with ilmenite exsolution from Modum, Norway
Karl Fabian et al.
EARTH AND PLANETARY SCIENCE LETTERS (2008)
Low-temperature exchange coupling between Fe2O3 and FeTiO3:: Insight into the mechanism of giant exchange bias in a natural nanoscale intergrowth
Richard J. Harrison et al.
PHYSICAL REVIEW B (2007)
Magnetization of exsolution intergrowths of hematite and ilmenite: Mineral chemistry, phase relations, and magnetic properties of hemo-ilmenite ores with micron- to nanometer-scale lamellae from Allard Lake, Quebec
Suzanne A. McEnroe et al.
JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH (2007)
Magnetic exchange bias of more than 1 tesla in a natural mineral intergrowth
Suzanne A. McEnroe et al.
NATURE NANOTECHNOLOGY (2007)
Lamellar magnetism in the haematite-ilmenite series as an explanation for strong remanent magnetization
P Robinson et al.
NATURE (2002)