Thermal emission measurements 2000-400 cm-1 (5-25 μm) of Hawaiian palagonitic soils and their implications for Mars

T. L. Roush; J. F. Bell

doi:10.1029/94JE02448

Thermal emission measurements 2000-400 cm^-1 (5-25 μm) of Hawaiian palagonitic soils and their implications for Mars

T. L. Roush, J. F. Bell

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20 Scopus citations

Abstract

The thermal emission of two palagonitic soils, common visible and near infrared spectral analogs for bright soils on Mars, was measured over the wavelength range of 5 to 25μm (2000 to 400 cm^-1) for several particle size separates. All spectra exhibit emissivity features due to vibrations associated with H₂O and SiO. The maximum variability of emissivity is ~20% in the short wavelength region (5 to 6.5 μm, 2000 to 1500 cm^-1), and is more subdued, <4%, at longer wavelengths. The strengths of features present in infrared spectra of Mars cannot be solely provided by emissivity variations of palagonite; some other material or mechanism must provide additional absorption(s). -Authors

Original language	English (US)
Pages (from-to)	5309-5317
Number of pages	9
Journal	Journal of geophysical research
Volume	100
Issue number	E3
DOIs	https://doi.org/10.1029/94JE02448
State	Published - Jan 1 1995
Externally published	Yes

ASJC Scopus subject areas

Geophysics
Forestry
Oceanography
Aquatic Science
Ecology
Water Science and Technology
Soil Science
Geochemistry and Petrology
Earth-Surface Processes
Atmospheric Science
Earth and Planetary Sciences (miscellaneous)
Space and Planetary Science
Palaeontology

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abstract = "The thermal emission of two palagonitic soils, common visible and near infrared spectral analogs for bright soils on Mars, was measured over the wavelength range of 5 to 25μm (2000 to 400 cm-1) for several particle size separates. All spectra exhibit emissivity features due to vibrations associated with H2O and SiO. The maximum variability of emissivity is ~20% in the short wavelength region (5 to 6.5 μm, 2000 to 1500 cm-1), and is more subdued, <4%, at longer wavelengths. The strengths of features present in infrared spectra of Mars cannot be solely provided by emissivity variations of palagonite; some other material or mechanism must provide additional absorption(s). -Authors",

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AU - Roush, T. L.

AU - Bell, J. F.

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Y1 - 1995/1/1

N2 - The thermal emission of two palagonitic soils, common visible and near infrared spectral analogs for bright soils on Mars, was measured over the wavelength range of 5 to 25μm (2000 to 400 cm-1) for several particle size separates. All spectra exhibit emissivity features due to vibrations associated with H2O and SiO. The maximum variability of emissivity is ~20% in the short wavelength region (5 to 6.5 μm, 2000 to 1500 cm-1), and is more subdued, <4%, at longer wavelengths. The strengths of features present in infrared spectra of Mars cannot be solely provided by emissivity variations of palagonite; some other material or mechanism must provide additional absorption(s). -Authors

AB - The thermal emission of two palagonitic soils, common visible and near infrared spectral analogs for bright soils on Mars, was measured over the wavelength range of 5 to 25μm (2000 to 400 cm-1) for several particle size separates. All spectra exhibit emissivity features due to vibrations associated with H2O and SiO. The maximum variability of emissivity is ~20% in the short wavelength region (5 to 6.5 μm, 2000 to 1500 cm-1), and is more subdued, <4%, at longer wavelengths. The strengths of features present in infrared spectra of Mars cannot be solely provided by emissivity variations of palagonite; some other material or mechanism must provide additional absorption(s). -Authors

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Thermal emission measurements 2000-400 cm^-1 (5-25 μm) of Hawaiian palagonitic soils and their implications for Mars

Abstract

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