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Recurring slope lineae and chlorides on the surface of Mars
J. L. Mitchell,
Philip Christensen
Earth and Space Exploration, School of (SESE)
Sustainability Initiative
Physics
Research output
:
Contribution to journal
›
Article
›
peer-review
14
Scopus citations
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Physics & Astronomy
mars
100%
chlorides
84%
brines
64%
slopes
63%
deposits
33%
time lag
31%
calcium chlorides
14%
fresh water
14%
geology
13%
perchlorates
13%
climate
11%
thermal emission
10%
water
10%
liquid flow
10%
remote sensing
10%
emissivity
9%
eutectics
9%
melting points
8%
indication
8%
signatures
7%
cycles
6%
products
6%
high resolution
5%
liquids
4%
temperature
2%
Earth & Environmental Sciences
Mars
78%
chloride
66%
brine
42%
climate cycle
13%
perchlorate
11%
liquid
11%
detection
11%
emissivity
10%
limiting factor
9%
water
8%
freezing
8%
geology
7%
calcium
7%
science
6%
remote sensing
6%
product
4%
experiment
3%
temperature
3%
Chemical Compounds
Chloride
49%
Surface
26%
Emissivity
19%
Eutectics
14%
Perchlorate
12%
Flow
9%
Liquid
7%
Amount
6%