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Chondrule formation by radiative heating: A numerical model
Don D. Eisenhour, P R Buseck
Molecular Sciences, School of (SMS)
Earth and Space Exploration, School of (SESE)
Research output
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Contribution to journal
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Article
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peer-review
17
Scopus citations
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Physics & Astronomy
chondrule
100%
heating
38%
dust
17%
rims
9%
textures
6%
electromagnetic radiation
6%
chondrites
6%
inoculation
4%
agglomeration
4%
sulfides
4%
silicates
3%
proportion
3%
seeds
3%
temperature gradients
3%
computerized simulation
3%
melting
3%
grain size
3%
matrices
2%
metals
2%
crystals
1%
temperature
1%
Earth & Environmental Sciences
chondrule
80%
heating
43%
dust
15%
electromagnetic radiation
10%
texture
6%
aggregate size
5%
seeding
4%
chondrite
4%
agglomeration
4%
computer simulation
4%
incorporation
3%
silicate
3%
grain size
3%
sulfide
3%
melting
3%
temperature
3%
crystal
2%
matrix
2%