D. G. Artemova scite author profile

Fossilized plant remains have been studied simultaneously by laser induced fluorescence and Raman spectroscopies, to reveal the prospective methods for onsite or/and laser remote sensing in future extraterrestrial missions. A multiwavelength instrument, capable of fluorescence and Raman measurements, has been utilized for the study of isolated plant fossils, as well as fossils associated with sedimentary rocks. Laser-induced fluorescence spectroscopy revealed that plant fossils and rocks’ luminosity differed significantly due to chlorophyll derivatives (chlorin, porphyrins, lignin components etc.); therefore, fossilized plants can be easily detected at rock surfaces onsite. Raman spectroscopy highly altered the fossilized graphitic material via the carbon D and G bands. Our results demonstrated that combined laser-induced fluorescence and Raman spectroscopy measurements can provide new insights into the detection of samples with biogenicity indicators such as chlorophyll and its derivatives, as well as kerogenous materials. The prospects of multiwavelength LIDAR instrument studies under fieldwork conditions are discussed for fossils diagnostics. The method of laser remote sensing can be useful in geological exploration in the search for oil, coal-bearing rocks, and rocks with a high content of organic matter.

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Remote Laser Induced Fluorescence of Soils and Rocks

Lednev¹,

Бункин²,

Першин³

et al. 2021

Photonics

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The laser induced fluorescence spectroscopy was systematically utilized for remote sensing of different soils and rocks for the first time, to the best of our knowledge. Laser induced fluorescence spectroscopy measurements were carried out by the developed nanosecond LIDAR instrument with variable excitation wavelength (355, 532 and 1064 nm). LIDAR sensing of different Brazil soil samples have been carried out in order to construct a spectral database. The laser induced fluorescence spectra interpretation for different samples has been discussed in detail. The perspectives of LIDAR sensing of organic samples deposited at soils and rock have been discussed including future space exploration missions in the search for extraterrestrial life.

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LIDAR Detection of Aerosols in the Tunnel above the Elbrus Volcano Chamber

Першин

Собисевич

Zavozin

et al. 2022

Bull. Lebedev Phys. Inst.

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Improving magmatic aerosol detection by LIDAR above the Elbrus magma chamber

Першин

Zavozin

Artemova

et al. 2022

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Omnidirectional Modulation of Seasonal Compression of the Earth’s Crust and the Aerosol Lidar Signal in a Tunnel above the Chamber of Elbrus Volcano

et al. 2021

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D. G. Artemova

Fossil Plant Remains Diagnostics by Laser-Induced Fluorescence and Raman Spectroscopies

Remote Laser Induced Fluorescence of Soils and Rocks

LIDAR Detection of Aerosols in the Tunnel above the Elbrus Volcano Chamber

Improving magmatic aerosol detection by LIDAR above the Elbrus magma chamber

Omnidirectional Modulation of Seasonal Compression of the Earth’s Crust and the Aerosol Lidar Signal in a Tunnel above the Chamber of Elbrus Volcano

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