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Comparator
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Comparator
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Experiment
Sample
E
xperiment
VNIR reflectance spectra of Mirabilite with 3 different grain sizes and at variable temperature (93-279 K)
S
ub-
E
xperiment
Mirabilite 36-50µm grain size at variable temperature
S
pectrum
VNIR reflectance of Mirabilite 36-50 µm grain size at T = 275 K (first)
S
pectrum
VNIR reflectance of Mirabilite 36-50 µm grain size at T = 275 K last
S
pectrum
VNIR reflectance of Mirabilite 36-50 µm grain size at T = 255 K
S
pectrum
VNIR reflectance of Mirabilite 36-50 µm grain size at T = 230 K
S
pectrum
VNIR reflectance of Mirabilite 36-50 µm grain size at T = 205 K
S
pectrum
VNIR reflectance of Mirabilite 36-50 µm grain size at T = 180 K
S
pectrum
VNIR reflectance of Mirabilite 36-50 µm grain size at T = 160 K
S
pectrum
VNIR reflectance of Mirabilite 36-50 µm grain size at T = 140 K
S
pectrum
VNIR reflectance of Mirabilite 36-50 µm grain size at T = 125 K
S
pectrum
VNIR reflectance of Mirabilite 36-50 µm grain size at T = 110 K
S
pectrum
VNIR reflectance of Mirabilite 36-50 µm grain size at T = 100 K
S
pectrum
VNIR reflectance of Mirabilite 36-50 µm grain size at T = 90 K
S
pectrum
VNIR reflectance of Mirabilite 36-50 µm grain size at T = 80 K
S
ub-
E
xperiment
Mirabilite 75-100µm grain size at variable temperature
S
pectrum
VNIR reflectance of Mirabilite 75-100 µm grain size at T = 298 K (first)
S
pectrum
VNIR reflectance of Mirabilite 75-100 µm grain size at T = 275 K (first)
S
pectrum
VNIR reflectance of Mirabilite 75-100 µm grain size at T = 275 K (last)
S
pectrum
VNIR reflectance of Mirabilite 75-100 µm grain size at T = 255 K
S
pectrum
VNIR reflectance of Mirabilite 75-100 µm grain size at T = 230 K
S
pectrum
VNIR reflectance of Mirabilite 75-100 µm grain size at T = 205 K
S
pectrum
VNIR reflectance of Mirabilite 75-100 µm grain size at T = 180 K
S
pectrum
VNIR reflectance of Mirabilite 75-100 µm grain size at T = 160 K
S
pectrum
VNIR reflectance of Mirabilite 75-100 µm grain size at T = 140 K
S
pectrum
VNIR reflectance of Mirabilite 75-100 µm grain size at T = 125 K
S
pectrum
VNIR reflectance of Mirabilite 75-100 µm grain size at T = 110 K
S
pectrum
VNIR reflectance of Mirabilite 75-100 µm grain size at T = 100 K
S
pectrum
VNIR reflectance of Mirabilite 75-100 µm grain size at T = 90 K
S
pectrum
VNIR reflectance of Mirabilite 75-100 µm grain size at T = 80 K
S
ub-
E
xperiment
Mirabilite 125-150µm grain size at variable temperature
S
pectrum
VNIR reflectance of Mirabilite 125-150 µm grain size at T = 298 K (first)
S
pectrum
VNIR reflectance of Mirabilite 125-150 µm grain size at T = 275 K
S
pectrum
VNIR reflectance of Mirabilite 125-150 µm grain size at T = 275 K (last)
S
pectrum
VNIR reflectance of Mirabilite 125-150 µm grain size at T = 255 K
S
pectrum
VNIR reflectance of Mirabilite 125-150 µm grain size at T = 230 K
S
pectrum
VNIR reflectance of Mirabilite 125-150 µm grain size at T = 205 K
S
pectrum
VNIR reflectance of Mirabilite 125-150 µm grain size at T = 180 K
S
pectrum
VNIR reflectance of Mirabilite 125-150 µm grain size at T = 160 K
S
pectrum
VNIR reflectance of Mirabilite 125-150 µm grain size at T = 140 K
S
pectrum
VNIR reflectance of Mirabilite 125-150 µm grain size at T = 125 K
S
pectrum
VNIR reflectance of Mirabilite 125-150 µm grain size at T = 110 K
S
pectrum
VNIR reflectance of Mirabilite 125-150 µm grain size at T = 100 K
S
pectrum
VNIR reflectance of Mirabilite 125-150 µm grain size at T = 90 K
S
pectrum
VNIR reflectance of Mirabilite 125-150 µm grain size at T = 80 K
S
ample
mirabilite powder (36-50µm grains)
L
ayer
Layer #1
Ma
tter
Mirabilite powder (36-50µm grains)
M
aterial
Mirabilite powder (36-50µm grains)
C
onstituent
Mirabilite (sodium sulfate decahydrate)
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Sample
UID
Name
mirabilite powder (36-50µm grains)
Owner of sample
Database
REFL_SLAB
Experimentalists
Cristian Carli
Simone DeAngelis
Origin of sample
Date
2018-04-19
Physical characteristics
Thickness
3.0
±
0.2
m
m
Substrate material
aluminium
Sample environment: Temperature
Temperature
160.0
±
1.0
K
Sample environment: Fluid
Type
purged air
Fluids
N
2
100.0 %
Fluid pressure
5.0
±
2.0
m
b
a
r
Comments
a few mbar of dry air were introduced into the closed cell in order to ensure an effective thermal equilibrium of the powder sample and to avoid dehydration.
Documentation and publication
Publications
De Angelis et al., 2021, Icarus, 357, 1 - 14
Layers in sample
Number
1
Layers
Layer #1
, 3.0
m
m
Sample processings