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Frequency dependent electrical properties of minerals and partial-melts
Jeffery J. Roberts, James Tyburczy
Earth and Space Exploration, School of (SESE)
Research output
:
Contribution to journal
›
Article
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peer-review
35
Scopus citations
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Physics & Astronomy
minerals
84%
impedance
65%
electrical properties
62%
conduction
50%
arcs
47%
olivine
37%
conductivity
31%
grain boundaries
28%
electrodes
23%
dunite
17%
basalt
13%
intermediate frequencies
12%
electrical impedance
9%
rocks
9%
frequency response
9%
frequency ranges
7%
activation energy
6%
low frequencies
6%
single crystals
5%
shift
5%
microstructure
5%
curves
5%
profiles
5%
configurations
5%
interactions
3%
temperature
2%
Chemical Compounds
Polycrystalline Solid
76%
Electrical Property
71%
Mineral
69%
Conductivity
56%
Grain Boundary
53%
Acoustic Impedance
21%
Behavior as Electrode
17%
Dimension
12%
Single Crystalline Solid
12%
Reaction Activation Energy
11%
Microstructure
11%
Flow
11%
Resistance
10%
Earth & Environmental Sciences
electrical property
100%
melt
62%
mineral
47%
conductivity
31%
grain boundary
29%
electrode
26%
material
22%
olivine
21%
frequency dependence
9%
metapelite
9%
dunite
9%
activation energy
7%
laboratory experiment
6%
basalt
6%
experiment
6%
microstructure
5%
crystal
5%
rock
3%
temperature
2%
distribution
2%
effect
1%