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Quantitative infrared spectra of hydrosilicates and related minerals
A. M. Hofmeister
, J. E. Bowey
Department of Earth & Planetary Sciences
Research output
:
Contribution to journal
›
Article
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peer-review
100
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Keyphrases
Infrared Spectra
100%
Hydrosilicates
100%
H-mode
50%
Concentration-independent
50%
Observational Data
50%
Absorbance
50%
Varying Thickness
50%
Speciation
50%
Magnesium Oxide
50%
Dust
50%
Absorption Coefficient
50%
Spectral Noise
50%
Infrared Measurements
50%
Elemental Concentration
50%
Controlled Thickness
50%
Stretching Mode
50%
Intrinsic Behavior
50%
Silicate Minerals
50%
Saponite
50%
OH Stretching
50%
Chain Silicate
50%
Band Shape
50%
Lattice Modes
50%
Atomic Motion
50%
Lizardite
50%
Refractory Minerals
50%
Band Type
50%
Sapphirine
50%
Earth and Planetary Sciences
Thin Films
100%
Infrared Radiation
100%
Absorption
100%
White Noise
50%
Chemical Element
50%
Silicate Mineral
50%
Saponite
50%
Inosilicate
50%
Lizardite
50%
Magnesium Oxide
50%
Sapphirine
50%
Material Science
Film
100%
Thin Films
100%
Silicate
100%
Magnesium Oxide
50%
Physics
Thin Films
100%
Infrared Radiation
100%
White Noise
50%
Chemical Element
50%
Engineering
Thin Films
100%
Absorptivity
50%
Absorption Coefficient
50%
White Noise
50%