Visible and near-InfraRed (VNIR) reflectance of silicate glasses: Characterization of a featureless spectrum and implications for planetary geology

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Alessandro Pisello
  • Simone De Angelis
  • Marco Ferrari
  • Massimiliano Porreca
  • Francesco Pasqualino Vetere
  • Harald Behrens
  • Maria Cristina De Sanctis
  • Diego Perugini

Organisationseinheiten

Externe Organisationen

  • University of Perugia
  • Institute for Space Astrophysics and Planetology (IAPS-INAF)
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Details

OriginalspracheEnglisch
Aufsatznummer114801
FachzeitschriftICARUS
Jahrgang374
Frühes Online-Datum19 Nov. 2021
PublikationsstatusVeröffentlicht - 1 März 2022

Abstract

Silicate glasses represent a major component in volcanic products, both in pyroclastic deposits and lavas. To date, their spectral characteristics are not thoroughly investigated in the context of their characterization as possible analogues of planetary surfaces, mainly due to their lack of spectral features. Nevertheless, featureless VIS-NIR spectra for which it is only possible to retrieve relative parameters (slope, albedo) are commonly observed on the surface of planetary bodies, and volcanic structures are supposed to be widely present in all terrestrial planets within the Solar System. Therefore, the correct interpretation of their geochemical signature is important in the attempt to shed new light on the evolution of these planets, and detailed knowledge about the spectral response of silicate glasses is fundamental for such a purpose. In this study, experimental petrology techniques have been used to produce 15 silicate glasses having complex chemical composition corresponding to three of the most common magmatic series on planet Earth. These glasses have been investigated in the Visible and Near/Infrared range to observe and interpret the variation of slope, albedo, and spectral ratio R1.55/R0.8 as a function of chemical composition. We found that, despite the complexity of factors influencing the spectral response, a good correlation can be derived linking spectral parameters with both iron content and composite Silicium-Calcium-Iron-Magnesium content (SCFM parameter). Results presented in this work might represent the baseline for new research lines focused on deciphering the significance of silicate glasses in the context of planetary exploration, opening new windows to access information on planetary differentiation that cannot be obtained using only existing materials and methods.

ASJC Scopus Sachgebiete

Zitieren

Visible and near-InfraRed (VNIR) reflectance of silicate glasses: Characterization of a featureless spectrum and implications for planetary geology. / Pisello, Alessandro; De Angelis, Simone; Ferrari, Marco et al.
in: ICARUS, Jahrgang 374, 114801, 01.03.2022.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Pisello, A, De Angelis, S, Ferrari, M, Porreca, M, Vetere, FP, Behrens, H, De Sanctis, MC & Perugini, D 2022, 'Visible and near-InfraRed (VNIR) reflectance of silicate glasses: Characterization of a featureless spectrum and implications for planetary geology', ICARUS, Jg. 374, 114801. https://doi.org/10.1016/j.icarus.2021.114801
Pisello, A., De Angelis, S., Ferrari, M., Porreca, M., Vetere, F. P., Behrens, H., De Sanctis, M. C., & Perugini, D. (2022). Visible and near-InfraRed (VNIR) reflectance of silicate glasses: Characterization of a featureless spectrum and implications for planetary geology. ICARUS, 374, Artikel 114801. https://doi.org/10.1016/j.icarus.2021.114801
Pisello A, De Angelis S, Ferrari M, Porreca M, Vetere FP, Behrens H et al. Visible and near-InfraRed (VNIR) reflectance of silicate glasses: Characterization of a featureless spectrum and implications for planetary geology. ICARUS. 2022 Mär 1;374:114801. Epub 2021 Nov 19. doi: 10.1016/j.icarus.2021.114801
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title = "Visible and near-InfraRed (VNIR) reflectance of silicate glasses: Characterization of a featureless spectrum and implications for planetary geology",
abstract = "Silicate glasses represent a major component in volcanic products, both in pyroclastic deposits and lavas. To date, their spectral characteristics are not thoroughly investigated in the context of their characterization as possible analogues of planetary surfaces, mainly due to their lack of spectral features. Nevertheless, featureless VIS-NIR spectra for which it is only possible to retrieve relative parameters (slope, albedo) are commonly observed on the surface of planetary bodies, and volcanic structures are supposed to be widely present in all terrestrial planets within the Solar System. Therefore, the correct interpretation of their geochemical signature is important in the attempt to shed new light on the evolution of these planets, and detailed knowledge about the spectral response of silicate glasses is fundamental for such a purpose. In this study, experimental petrology techniques have been used to produce 15 silicate glasses having complex chemical composition corresponding to three of the most common magmatic series on planet Earth. These glasses have been investigated in the Visible and Near/Infrared range to observe and interpret the variation of slope, albedo, and spectral ratio R1.55/R0.8 as a function of chemical composition. We found that, despite the complexity of factors influencing the spectral response, a good correlation can be derived linking spectral parameters with both iron content and composite Silicium-Calcium-Iron-Magnesium content (SCFM parameter). Results presented in this work might represent the baseline for new research lines focused on deciphering the significance of silicate glasses in the context of planetary exploration, opening new windows to access information on planetary differentiation that cannot be obtained using only existing materials and methods.",
keywords = "Experimental techniques, Terrestrial planets, Volcanism",
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note = "Funding Information: We acknowledge the support of ASI under the ASI-UniPG agreement 2019-2-HH.0. We would like to thank J. Jackson for language revision, P. Baldini for technical support and two anonymous reviewers for constructing comments. Rosa Anna Corsaro from INGV Catania is warmly thanked for providing Etna samples. ",
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TY - JOUR

T1 - Visible and near-InfraRed (VNIR) reflectance of silicate glasses

T2 - Characterization of a featureless spectrum and implications for planetary geology

AU - Pisello, Alessandro

AU - De Angelis, Simone

AU - Ferrari, Marco

AU - Porreca, Massimiliano

AU - Vetere, Francesco Pasqualino

AU - Behrens, Harald

AU - De Sanctis, Maria Cristina

AU - Perugini, Diego

N1 - Funding Information: We acknowledge the support of ASI under the ASI-UniPG agreement 2019-2-HH.0. We would like to thank J. Jackson for language revision, P. Baldini for technical support and two anonymous reviewers for constructing comments. Rosa Anna Corsaro from INGV Catania is warmly thanked for providing Etna samples.

PY - 2022/3/1

Y1 - 2022/3/1

N2 - Silicate glasses represent a major component in volcanic products, both in pyroclastic deposits and lavas. To date, their spectral characteristics are not thoroughly investigated in the context of their characterization as possible analogues of planetary surfaces, mainly due to their lack of spectral features. Nevertheless, featureless VIS-NIR spectra for which it is only possible to retrieve relative parameters (slope, albedo) are commonly observed on the surface of planetary bodies, and volcanic structures are supposed to be widely present in all terrestrial planets within the Solar System. Therefore, the correct interpretation of their geochemical signature is important in the attempt to shed new light on the evolution of these planets, and detailed knowledge about the spectral response of silicate glasses is fundamental for such a purpose. In this study, experimental petrology techniques have been used to produce 15 silicate glasses having complex chemical composition corresponding to three of the most common magmatic series on planet Earth. These glasses have been investigated in the Visible and Near/Infrared range to observe and interpret the variation of slope, albedo, and spectral ratio R1.55/R0.8 as a function of chemical composition. We found that, despite the complexity of factors influencing the spectral response, a good correlation can be derived linking spectral parameters with both iron content and composite Silicium-Calcium-Iron-Magnesium content (SCFM parameter). Results presented in this work might represent the baseline for new research lines focused on deciphering the significance of silicate glasses in the context of planetary exploration, opening new windows to access information on planetary differentiation that cannot be obtained using only existing materials and methods.

AB - Silicate glasses represent a major component in volcanic products, both in pyroclastic deposits and lavas. To date, their spectral characteristics are not thoroughly investigated in the context of their characterization as possible analogues of planetary surfaces, mainly due to their lack of spectral features. Nevertheless, featureless VIS-NIR spectra for which it is only possible to retrieve relative parameters (slope, albedo) are commonly observed on the surface of planetary bodies, and volcanic structures are supposed to be widely present in all terrestrial planets within the Solar System. Therefore, the correct interpretation of their geochemical signature is important in the attempt to shed new light on the evolution of these planets, and detailed knowledge about the spectral response of silicate glasses is fundamental for such a purpose. In this study, experimental petrology techniques have been used to produce 15 silicate glasses having complex chemical composition corresponding to three of the most common magmatic series on planet Earth. These glasses have been investigated in the Visible and Near/Infrared range to observe and interpret the variation of slope, albedo, and spectral ratio R1.55/R0.8 as a function of chemical composition. We found that, despite the complexity of factors influencing the spectral response, a good correlation can be derived linking spectral parameters with both iron content and composite Silicium-Calcium-Iron-Magnesium content (SCFM parameter). Results presented in this work might represent the baseline for new research lines focused on deciphering the significance of silicate glasses in the context of planetary exploration, opening new windows to access information on planetary differentiation that cannot be obtained using only existing materials and methods.

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