Vis-NIR reflectance spectrum of Fontenaille pigment (PIG-0175-2016), grains < 160 µm, d=1.46 g/cm3
- Title
- Vis-NIR reflectance spectrum of Fontenaille pigment (PIG-0175-2016), grains < 160 µm, d=1.46 g/cm3
- DOI
- 10.26302/SSHADE/EXPERIMENT_BS_20191012_100
- Data reference
- Schmitt, Bernard; Chalmin-Aljanabi, Emilie (2019): Vis-NIR reflectance spectra of Fontenaille pigments (PIG-0175-2016 + PIG-0218-2019): raw block, powders with different grain sizes and painted matter. SSHADE/PIG (OSUG Data Center). Dataset/Spectral Data. https://doi.org/10.26302/SSHADE/EXPERIMENT_BS_20191012_100
- Database
- Experimentalists
- Experiment type
- laboratory measurement
- Type
- reflectance factor
- Instrument
- SHADOWS Spectro-Gonio bidirectional reflection Vis-NIR
- Sample holder
- cylindrical aluminium sample holders of various sizes for powder
- Standard medium
- vacuum
- Observation mode
- spectrum
- Spectral range type(s)
- Vis
- Valid spectral range(s)
-
Min - Max ($nm$) Sampling ($nm$) Resolution ($nm$) Position accuracy ($nm$) Absorption edge #1 430.0 - 678.0 4.0 1.9 0.2 #2 682.0 - 998.0 4.0 3.8 0.4 - Filters
-
Type Center/Edge ($nm$) Width ($nm$) Place #1 several high frequency filters output of monochromator - Scan number
- 10
- Comments
- measured over the 362-998nm range
Definition: incidence and emergence angles are positive with origin at nadir, and vary in same direction. Azimuth origin (increasing clockwise) is for i = e (opposition geometry).
- Observation geometry
- bidirectional
- Observation mode
- fixed angles
- Incidence angle
- 0.0°
- Emergence angle
- 30.0°
- Azimuth angle
- 0.0°
- Phase angle
- 30.0°
- Resolution illumination
- 5.8°
- Resolution observation
- 4.1°
Illumination
Observation
- Comments
- some wavelength dependent polarization
- Observation mode
- single spot
- Resolutions
- 5.2 ${\pm}$ 0.1 $mm$
- Comments
- illumination with 8 fiber optic spots within a 5.2 mm diameter, observation within an ellips of 23x20 mm
- Instrument
- SHINE Spectro-Gonio bidirectional reflection Vis-NIR
- Sample holder
- cylindrical aluminium sample holders of various sizes for powder
- Standard medium
- vacuum
- Observation mode
- spectrum
- Spectral range type(s)
- NIR
- Valid spectral range(s)
-
Min - Max ($nm$) Sampling ($nm$) Resolution ($nm$) Position accuracy ($nm$) Absorption edge #1 1002.0 - 1426.0 4.0 3.8 0.4 #2 1430.0 - 3198.0 4.0 7.6 0.8 #3 3202.0 - 4210.0 8.0 15.5 1.6 #4 4314.0 - 4802.0 8.0 15.5 1.6 - Filters
-
Type Center/Edge ($nm$) Width ($nm$) Place #1 several high frequency filters output of monochromator - Scan number
- 10
- Comments
- measured over the 602-4802nm range
Definition: incidence and emergence angles are positive with origin at nadir, and vary in same direction. Azimuth origin (increasing clockwise) is for i = e (opposition geometry).
- Observation geometry
- bidirectional
- Observation mode
- fixed angles
- Incidence angle
- 0.0°
- Emergence angle
- 30.0°
- Azimuth angle
- 0.0°
- Phase angle
- 30.0°
- Resolution illumination
- 5.8°
- Resolution observation
- 4.1°
Illumination
Observation
- Comments
- some wavelength dependent polarization
- Observation mode
- single spot
- Resolutions
- 7.5 ${\pm}$ 0.2 $mm$
- Comments
- illumination with 9 fiber optic spots within 7.5 mm diameter, observation within an ellips of 23x20 mm
- Experiment
- Vis-NIR reflectance spectra of Fontenaille pigments (PIG-0175-2016 + PIG-0218-2019): raw block, powders with different grain sizes and painted matter
- Date begin
- 2019-12-09
- Date end
- 2020-02-26
- Release date
- 2020-06-25 12:04:48 UTC+0000
- Version (Date)
- #1 (2020-06-25 12:04:48 UTC+0000, Updated: 2022-11-07 07:49:38 UTC+0000)
- History
-
Date Mode Version Status Comments 2020-06-25 11:20:31 UTC+0000 first import #1 valid version
- Analysis
- raw bidirectional reflectance spectrum calibrated: 1) with "Spectralon 99%" measured under same geometry using its absolute BRDF (0.36-1.35µm) and 2) with "Infragold" using its relative spectral reflectance (1.35-4.8µm). The visible spectrum (362-998nm) is scaled by a factor 0.944 (due to slightly different compaction and surface texture) and merged with the NIR spectrum (1002-4802 nm). The residual water vapor lines, around 1.12, 1.38, 1.87, 2.665µm, have been corrected by multiplying by a scaled water vapor transmission spectrum measured at same resolution and sampling. The noisy range of atmospheric $CO_2$ (4.21-4.32µm) has been removed. A very slight smoothing (binomial over 3 points) has been applied, except around the weak NIR absorption band at 2.70µm). The noisy flat 0.40-0.42µm part is strongly smoothed and extrapolated.
- Quality flag
- 4
- Validator(s)