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The pace of rhyolite differentiation and storage in an 'archetypical' silicic magma system, Long Valley, California
Justin I. Simon, Mary R. Reid
Earth and Sustainability
Research output
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Contribution to journal
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Article
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peer-review
101
Scopus citations
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Dive into the research topics of 'The pace of rhyolite differentiation and storage in an 'archetypical' silicic magma system, Long Valley, California'. Together they form a unique fingerprint.
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Physics & Astronomy
rhyolite
100%
magma
79%
volcanic eruptions
66%
valleys
53%
mountains
40%
calderas
29%
crystallization
23%
glass
17%
minerals
15%
isotopes
13%
chambers
12%
feldspars
10%
crusts
9%
inference
8%
crystal growth
7%
time measurement
6%
intervals
5%
ions
3%
Earth & Environmental Sciences
rhyolite
57%
tuff
54%
magma
41%
zircon
39%
volcanic eruption
39%
valley
37%
crystallization
21%
glass
20%
mountain
17%
caldera
14%
magma chamber
14%
isotope
10%
sanidine
9%
ion microprobe
8%
mineral
7%
feldspar
6%
crust
5%
melt
4%
timescale
4%
crystal
4%
chemical
3%
Chemical Compounds
Crystallization
21%
Glass
21%
Isotope
13%
Mineral
12%
Feldspar
10%
Crystal Growth
7%
Mass Transfer
6%
Ion
3%
Time
2%