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Thermal infrared emission spectroscopy of anhydrous carbonates
Melissa D. Lane,
Philip Christensen
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
112
Scopus citations
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Agriculture & Biology
carbonates
70%
spectroscopy
56%
carbonate minerals
45%
kutnohorite
41%
heat
35%
calcite
33%
mineralogy
27%
dolomite
25%
siderite
22%
smithsonite
21%
heat emissions
21%
magnesite
18%
minerals
14%
anions
12%
rhodochrosite
12%
cations
11%
solid solutions
8%
spectrometers
6%
vibration
6%
sampling
6%
chemistry
5%
iron
4%
environmental factors
4%
calcium
3%
Chemical Compounds
Infrared Emission Spectroscopy
100%
Carbonate
49%
Carbonate Mineral
39%
Calcite
21%
Emissivity
17%
Sampling
15%
Mineral
15%
Emission Spectrum
11%
Anion
7%
Cation
7%
Wavenumber
6%
Solid Solution
5%
Chemistry
3%
Environment
3%
Amount
2%
Surface
1%
Physics & Astronomy
carbonates
70%
spectroscopy
32%
minerals
31%
calcite
23%
mineralogy
19%
siderites
15%
mars
10%
thermal emission
10%
absorption spectra
9%
emissivity
9%
anions
8%
emission spectra
7%
cations
7%
sampling
7%
Mars Global Surveyor
7%
data sampling
6%
spectral signatures
5%
vibration mode
4%
chemistry
3%
solid solutions
3%
spectrometers
3%
vibration
2%
Earth & Environmental Sciences
spectroscopy
52%
carbonate
41%
mineral
17%
calcite
14%
Mars
12%
dolomite
12%
mineralogy
11%
magnesite
11%
emission data
10%
siderite
10%
emissivity
9%
anion
8%
sampling
7%
cation
7%
rhodochrosite
6%
solid solution
4%
vibration
4%
spectrometer
3%
environmental conditions
3%
effect
1%