Search Results - "Molostov, I. P."

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  1. 1
    A dielectric model of thawed and frozen Arctic soils considering frequency, temperature, texture and dry density

    A dielectric model of thawed and frozen Arctic soils considering frequency, temperature, texture and dry density by Mironov, V. L., Karavayskiy, A. Yu, Lukin, Yu. I., Molostov, I. P.

    Published in International journal of remote sensing (18-05-2020)
    “…A dielectric model was developed for thawed and frozen mineral soils, based on the refractive mixing dielectric formula and the dielectric measurement data for…”
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    Journal Article
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  2. 2
    Frequency-, temperature-, and texture-dependent dielectric model for frozen and thawed arctic mineral soils

    Frequency-, temperature-, and texture-dependent dielectric model for frozen and thawed arctic mineral soils by Mironov, V. L., Molostov, I. P., Luki, Y. I., Karavaysky, A. Y., Fomin, S. V.

    “…In this paper, a physically based dielectric model for frozen and thawed Arctic mineral soils is developed to account for moisture, dry density, temperature,…”
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    Conference Proceeding
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  3. 3
    Single-frequency dielectric model of frozen mineral soils for frequencies of the basic satellites

    Single-frequency dielectric model of frozen mineral soils for frequencies of the basic satellites by Mironov, V. L., Fomin, S. V., Lukin, Y. I., Karavaysky, A. Y., Molostov, I. P.

    “…A simple single-frequency dielectric model for the set of frequencies which are 0.45, 1.26, 1.4, 1.6, 5.4, 6.9, 9.6, and 10.7 GHz for frozen mineral soils is…”
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    Conference Proceeding
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  4. 4
    Temperature dependent multi-relaxation spectroscopic dielectric model for an arctic silt clay loam soil thawed and frozen at 0.1-15 GHZ

    Temperature dependent multi-relaxation spectroscopic dielectric model for an arctic silt clay loam soil thawed and frozen at 0.1-15 GHZ by Mironov, V. L., Molostov, I. P., Karavaysky, A. Yu

    “…The dielectric model for an arctic silt clay loam soil collected on the Yamal peninsula both thawed and frozen has been developed. The model is based on the…”
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    Conference Proceeding
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  5. 5
    A dielectric model at a frequency of 1.4GHz for frozen mineral soils in the temperature range −1 to −30°C

    A dielectric model at a frequency of 1.4GHz for frozen mineral soils in the temperature range −1 to −30°C by Mironov, V. L., Kosolapova, L. G., Lukin, Y. I., Karavaysky, A. Y., Molostov, I. P.

    “…A single-frequency dielectric model at 1.4 GHz for frozen mineral soils was developed, with the temperature and clay content varying from -1 to -30°C and 9.1…”
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    Conference Proceeding
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  6. 6
    Temperature and texture dependent spectroscopic dielectric model for frozen mineral soils at 0.1-15GHz

    Temperature and texture dependent spectroscopic dielectric model for frozen mineral soils at 0.1-15GHz by Mironov, V. L., Karavaysky, A. Y., Molostov, I. P., Lukin, Y. I., Kosolapova, L. G.

    “…Dielectric models of topsoil are a crucial element of remote sensing retrieval algorithms that are used to obtain geophysical characteristics of the land…”
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    Conference Proceeding
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