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Magnetic anisotropy in natural amphibole crystals
Andrea R. Biedermann,
Christian Bender Koch
, Thomas Pettke, Ann M. Hirt
Department of Chemistry
16
Citations (Scopus)
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Dive into the research topics of 'Magnetic anisotropy in natural amphibole crystals'. Together they form a unique fingerprint.
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Earth & Environmental Sciences
ablation
8%
amphibole
59%
anisotropy
21%
cooling
5%
crystal
40%
crystal structure
8%
fabric
6%
felsic rock
10%
field method
9%
hornblende
8%
igneous rock
16%
laser
6%
mafic rock
9%
magnetic anisotropy
75%
magnetic fabric
11%
mass spectrometry
7%
metamorphic rock
16%
mineral
13%
pargasite
12%
plasma
6%
preferred orientation
9%
richterite
13%
riebeckite
12%
rock
16%
spectroscopy
6%
temperature
3%
texture
6%
tremolite
11%
trend
4%
Physics & Astronomy
amphiboles
100%
anisotropy
36%
cooling
4%
crystal structure
5%
crystals
28%
habits
7%
igneous rocks
22%
inclusions
5%
inductively coupled plasma mass spectrometry
9%
interactions
2%
laser ablation
6%
magnetic permeability
42%
metamorphic rocks
23%
minerals
19%
rocks
24%
room temperature
3%
single crystals
7%
spectroscopy
3%
textures
5%
trends
4%
Chemical Compounds
Actinolite
18%
Ambient Reaction Temperature
5%
Anisotropy
54%
Cooling
8%
Crystal Habit
12%
Crystal Structure
4%
Crystalline Texture
9%
Magnetic Anisotropy
75%
Magnetic Structure
12%
Magnetic Susceptibility
27%
Mineral
23%
Prismatic Crystal
10%
Riebeckite
19%
Single Crystalline Solid
13%
Spectroscopy
6%
X-Ray Laue Diffraction
14%