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A model of the thermal processing of particles in solar nebula shocks: Application to the cooling rates of chondrules
S. J. Desch
, H. C. Connolly
Research output
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Contribution to journal
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Article
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peer-review
276
Scopus citations
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Dive into the research topics of 'A model of the thermal processing of particles in solar nebula shocks: Application to the cooling rates of chondrules'. Together they form a unique fingerprint.
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Physics & Astronomy
chondrule
100%
solar nebula
87%
shock
47%
cooling
41%
shock waves
14%
melting
13%
gases
8%
gravitational instability
7%
protoplanetary disks
6%
high temperature gases
6%
gas density
6%
thermal radiation
6%
encounters
5%
radiative transfer
5%
drag
5%
dust
4%
dissociation
4%
histories
4%
evaporation
4%
momentum
3%
heating
3%
energy
3%
geometry
3%
radiation
3%
temperature
1%
Earth & Environmental Sciences
chondrule
80%
cooling
43%
particle
30%
rate
20%
shock wave
19%
gas
14%
melting
12%
radiation
7%
recombination
6%
energy flux
6%
radiative transfer
5%
drag
5%
slab
4%
momentum
4%
evaporation
4%
dust
4%
heating
3%
geometry
3%
speed
3%
history
3%
energy
2%
temperature
2%
effect
1%