Optical constants from UV to FIR for amorphous Mg-silicate with Mg/Si=2.4

Spectrum

Title: Optical constants from UV to FIR for amorphous Mg-silicate with Mg/Si=2.4

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Data

Unit: Range: Valid spectral range(s): 33.3333333333333 - 50000.0 micron

X Axis

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Legend

Position: Visibility:

References

DOI

10.26302/SSHADE/EXPERIMENT_HM_20170913_020

Data reference

Jäger, Cornelia; Dorschner, Johann; Mutschke, Harald; Posch, Thomas; Henning, Thomas (2001): Optical constants from UV to FIR for amorphous Mg-silicates produced by the sol-gel technique. SSHADE/DOCCD (OSUG Data Center). Dataset/Spectral Data. https://doi.org/10.26302/SSHADE/EXPERIMENT_HM_20170913_020

Publications

Jäger et al., 2003, Astron. Astrophys., 408, 193 - 204

Owner

Database

DOCCD

Experimentalists

Spectrum type

Experiment type: laboratory measurement
Type: optical constants

Instrument #1

Instrument: Lambda 19 – reflection UV

Spectral parameters

Standard medium

air

Observation mode

spectrum

Spectral range type(s)

Valid spectral range(s)

	Min - Max (${\mu}m$)	Sampling (${\mu}m$)	Resolution (${\mu}m$)	Position accuracy (${\mu}m$)	Absorption edge
#1	0.2 - 0.319		0.0005

Scan number

Angular parameters

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: specular
Observation mode: fixed angles
Incidence angle: 12.0°
Emergence angle: 12.0°
Resolution illumination: 6.0°
Resolution observation: 6.0°

Polarization parameters

Illumination

Type of polarization: no

Observation

Type of polarization: no

Spatial parameters

Observation mode: single spot
Resolutions: 5.0 $mm$

Instrument #2

Instrument: Lambda 19 – reflection vis

Spectral parameters

Standard medium

air

Observation mode

spectrum

Spectral range type(s)

Vis

Valid spectral range(s)

	Min - Max (${\mu}m$)	Sampling (${\mu}m$)	Resolution (${\mu}m$)	Position accuracy (${\mu}m$)	Absorption edge
#1	0.319 - 0.86		0.0005

Scan number

Angular parameters

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: specular
Observation mode: fixed angles
Incidence angle: 12.0°
Emergence angle: 12.0°
Resolution illumination: 6.0°
Resolution observation: 6.0°

Polarization parameters

Illumination

Type of polarization: no

Observation

Type of polarization: no

Spatial parameters

Observation mode: single spot
Resolutions: 5.0 $mm$

Instrument #3

Instrument: Lambda 19 – reflection NIR

Spectral parameters

Standard medium

air

Observation mode

spectrum

Spectral range type(s)

NIR

Valid spectral range(s)

	Min - Max (${\mu}m$)	Sampling (${\mu}m$)	Resolution (${\mu}m$)	Position accuracy (${\mu}m$)	Absorption edge
#1	0.86 - 2.5

Scan number

Angular parameters

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: specular
Observation mode: fixed angles
Incidence angle: 12.0°
Emergence angle: 12.0°
Resolution illumination: 6.0°
Resolution observation: 6.0°

Polarization parameters

Illumination

Type of polarization: no

Observation

Type of polarization: no

Spatial parameters

Observation mode: single spot
Resolutions: 5.0 $mm$

Instrument #4

Instrument: BRUKER 113v – reflection Mid-IR

Spectral parameters

Standard medium

vacuum

Observation mode

spectrum

Spectral range type(s)

MIR

Valid spectral range(s)

	Min - Max (${\mu}m$)	Sampling (${\mu}m$)	Resolution (${\mu}m$)	Position accuracy (${\mu}m$)	Absorption edge
#1	2.0 - 25.0

Scan number

Angular parameters

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: specular
Observation mode: fixed angles
Incidence angle: 12.0°
Emergence angle: 12.0°
Resolution illumination: 6.0°
Resolution observation: 6.0°

Polarization parameters

Illumination

Type of polarization: no

Observation

Type of polarization: no

Spatial parameters

Observation mode: single spot
Resolutions: 5.0 $mm$

Instrument #5

Instrument: BRUKER 113v – reflection Far-IR

Spectral parameters

Standard medium

vacuum

Observation mode

spectrum

Spectral range type(s)

FIR

Valid spectral range(s)

	Min - Max (${\mu}m$)	Sampling (${\mu}m$)	Resolution (${\mu}m$)	Position accuracy (${\mu}m$)	Absorption edge
#1	15.0 - 300.0

Scan number

Angular parameters

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: specular
Observation mode: fixed angles
Incidence angle: 12.0°
Emergence angle: 12.0°
Resolution illumination: 6.0°
Resolution observation: 6.0°

Polarization parameters

Illumination

Type of polarization: no

Observation

Type of polarization: no

Spatial parameters

Observation mode: single spot
Resolutions: 5.0 $mm$

Sample

Name: Mg-silicate pellet with composition Mg/Si=2.4

Spectrum history

Experiment

Optical constants from UV to FIR for amorphous Mg-silicates produced by the sol-gel technique

Date begin

2001-01-01

Release date

2019-08-26 08:12:26 UTC+0000

Version (Date)

#1 (2019-08-26 08:12:26 UTC+0000, Updated: 2019-08-19 09:36:58 UTC+0000)

History

Date	Mode	Version	Status	Comments
2018-03-21 16:31:19 UTC+0000	first import	#1	valid version	first version

Spectrum analysis

Analysis: The optical constants were determined from the reflectance (spectra measured with FTIR and Lambda 19 merged) by a combination of Kramers-Kronig-analysis and Lorentzian-oscillator fit.
Quality flag: 4