E. Rost scite author profile

High-resolution laboratory-based thermal infrared spectroscopy is an up-and-coming tool in the field of geological remote sensing. Its spatial resolution allows for detailed analyses at centimeter to sub-millimeter scales. However, this increase in resolution creates challenges with sample characteristics, such as grain size, surface roughness, and porosity, which can influence the spectral signature. This research explores the effect of rock sample surface preparation on the thermal infrared spectral signatures. We applied three surface preparation methods (split, saw, and polish) to determine how the resulting differences in surface roughness affects both the spectral shape as well as the spectral contrast. The selected samples are a pure quartz sandstone, a quartz sandstone containing a small percentage of kaolinite, and an intermediate-grained gabbro. To avoid instrument or measurement type biases we conducted measurements on three TIR instruments, resulting in directional hemispherical reflectance spectra, emissivity spectra and bi-directional reflectance images. Surface imaging and analyses were performed with scanning electron microscopy and profilometer measurements. We demonstrate that surface preparation affects the TIR spectral signatures influencing both the spectral contrast, as well as the spectral shape. The results show that polished surfaces predominantly display a high spectral contrast while the sawed and split surfaces display up to 25% lower reflectance values. Furthermore, the sawed and split surfaces display spectral signature shape differences at specific wavelengths, which we link to mineral transmission features, surface orientation effects, and multiple reflections in fine-grained minerals. Hence, the influence of rock surface preparation should be taken in consideration to avoid an inaccurate geological interpretation.

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Phase Relationships of Palladium Selenides.

Olsen¹,

Rost²,

Grønvold³

1979

Acta Chem. Scand.

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Modelling the Transmission Component in TIR Reflectance Spectra of Sandstones to Understand the Effect of Surface Roughness and Clinging Fines

Rost

Green²,

Werff

et al. 2022

JGR Solid Earth

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Surface roughness of rocks influences the spectral shape and amplitude of thermal infrared spectra, but the relationship is poorly understood. This research aims to understand the physical processes that cause the observed spectral variation by modeling the reflectance spectra with a nonlinear transmission model. We designed a model that combines rock surface reflection with transmission through clinging fines that coat the surface. The novelty of this approach is that it does not model individual particles, but compiles different combinations of thin particle transmission and reflectance of the solid surface until it has an optimal fit with actual measured rock spectra. We use directional‐hemispherical reflectance spectra of two quartz sandstones with a varying surface roughness, a transmission spectrum of a powder from one of these sandstones, and a pure mineral (kaolinite) transmission spectrum as input for the model. The model reproduces spectral amplitude and shape of the principal quartz reststrahlen doublet of three out of four measured sandstone spectra. It also correctly displays the strong bands of the quartz reststrahlen doublet. With the model we demonstrate that reflectance and transmission based modeling is a promising technique for identification and correction of spectral characteristics that result from a different surface roughness.

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Rock Sample Surface Preparation Influences Thermal Infrared Spectra

Rost¹,

Hecker²,

Schodlok

et al. 2018

Preprint

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High-resolution laboratory-based thermal infrared spectroscopy is an up-and-coming tool in the field of geological remote sensing. Its spatial resolution allows for detailed analyses at centimeter to sub-millimeter scale. However, this increase in resolution creates challenges with sample characteristics such as grain size, surface roughness and porosity that can influence the spectral signature. This research explores the effect of rock sample surface preparation on the TIR spectral signatures. We applied three surface preparation methods (split, saw and polish) to determine how the resulting differences in surface roughness affects both the spectral shape as well as the spectral contrast. The selected samples are a pure quartz sandstone, a quartz sandstone containing a small percentage of kaolinite, and an intermediate-grained gabbro. To avoid instrument or measurement type biases we conducted measurements on three TIR instruments, resulting in directional hemispherical reflectance spectra, emissivity spectra and bi-directional reflectance images. Surface imaging and analyses were performed with scanning electron microscopy and profilometer measurements. We demonstrate that surface preparation affects the TIR spectral signatures influencing both the spectral contrast as well as the spectral shape. The results show that polished surfaces predominantly display a high spectral contrast while the sawed and split surfaces display up to 25% lower reflectance values. Furthermore, the sawed and split surfaces display spectral signature shape differences at specific wavelengths, which we link to mineral transmission features, surface orientation effects and multiple reflections in fine-grained minerals. Hence, the influence of rock surface preparation should be taken in consideration to avoid an inaccurate geological interpretation.

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HIGH RESOLUTION MASS SPECTROMETRY FOR ⁴⁰AR/³⁹AR GEOCHRONOLOGY: A DESIRE OR NEED?

Kuiper¹,

Wijbrans²,

Monster³

et al. 2016

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E. Rost

Rock Sample Surface Preparation Influences Thermal Infrared Spectra

Phase Relationships of Palladium Selenides.

Modelling the Transmission Component in TIR Reflectance Spectra of Sandstones to Understand the Effect of Surface Roughness and Clinging Fines

Rock Sample Surface Preparation Influences Thermal Infrared Spectra

HIGH RESOLUTION MASS SPECTROMETRY FOR ⁴⁰AR/³⁹AR GEOCHRONOLOGY: A DESIRE OR NEED?

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E. Rost

Rock Sample Surface Preparation Influences Thermal Infrared Spectra

Phase Relationships of Palladium Selenides.

Modelling the Transmission Component in TIR Reflectance Spectra of Sandstones to Understand the Effect of Surface Roughness and Clinging Fines

Rock Sample Surface Preparation Influences Thermal Infrared Spectra

HIGH RESOLUTION MASS SPECTROMETRY FOR 40AR/39AR GEOCHRONOLOGY: A DESIRE OR NEED?

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HIGH RESOLUTION MASS SPECTROMETRY FOR ⁴⁰AR/³⁹AR GEOCHRONOLOGY: A DESIRE OR NEED?