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A comparison of anisotropy of magnetic remanence methods - A user's guide for application to palaeomagnetism and magnetic fabric studies
David K. Potter
Research output
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Contribution to journal
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Article
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peer-review
34
Citations (Scopus)
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INIS
applications
100%
comparative evaluations
100%
anisotropy
100%
magnetization
62%
particles
31%
rocks
12%
distribution
6%
concentration
6%
sediments
6%
magnetic fields
6%
magnetic susceptibility
6%
inclination
6%
Earth and Planetary Sciences
Paleomagnetism
100%
Remanence
100%
Magnetic Fabric
100%
Remanent Magnetization
40%
Magnetic Anisotropy
10%
Pottery
10%
Information Resources Management
10%
Natural Remanent Magnetization
10%
Thermoremanent Magnetization
10%
London
10%
Engineering
Anisotropic Rock
100%
Anisotropic
50%
Rotational
50%
Isothermal
50%
Magnetic Field
50%
Physics
Paleomagnetism
100%
Anisotropy
100%
Remanent Magnetization
33%
Magnetic Anisotropy
8%
Magnetic Field
8%
Thermoremanent Magnetization
8%
Natural Remanent Magnetization
8%