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1.
| A temperature-dependent dielectric model for thawed and frozen organic soil at 1.4 GHz/V. L. Mironov [et al.] // IEEE Journal of Selected Topics in Applied Earth Observations and Remote:IEEE-Institute Electrical and Electronics Engineers, 2015. т.Vol. 8,N Is. 9.-С.4470-4477
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2.
| Bobrov P. P. The effect of dielectric relaxation processes on the complex dielectric permittivity of soils at frequencies from 10 kHz to 8 GHz—Part II: Broadband analysis/P. P. Bobrov, E. S. Kroshka, K. V. Muzalevskiy // IEEE Transactions on Geoscience and Remote Sensing, 2024. т.Vol. 62.- Ст.2000411
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3.
| Comparison of Two Retrieval Soil Moisture Algorithms on SMOS Data/P. P. Bobrov [и др.] // IEEE International Geoscience and Remote Sensing Symposium (IGRASS). -Munich, 2012.-С.1131-1134
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4.
| Dielectric model for thawed and frozen organic soils at 1.4 GHz/V. L. Mironov [et al.] // International Geoscience and Remote Sensing Symposium (IGARSS):IEEE, 2018. т.Vol. 2018-July:38th Annual IEEE International Geoscience and Remote Sensing Symposium, IGARSS 2018 (22 July 2018 through 27 July 2018, ) Conference code: 141934.- Ст.8518443.-С.7180-7183
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5.
| Director transformations within nematic droplets dispersed in polyvinylpirrolydon induced by temperature and moisture/Sutormin V.S., Krakhalev M.N., Prishchepa O.O., Zyryanov V.Ya. // 22nd International LC Conference, 2008. т.Vol. 1.-С.378
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6.
| Error of Moisture Retrieving from the SMOS Radiobrightness with the Use of the Temperature Dependable Soil Dielectric Model/V. L. Mironov, L. G. Kosolapova, F. Demontoux // Progress In Electromagnetics Research Symposium Proceedings, 2011.-С.709-711
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7.
| Evaluating an improved parameterization of the soil emission in L-MEB/J. P. Wigneron [et al.] // Ieee transactions on geoscience and remote sensing:IEEE-Institute Electrical and Electronics Engineers, 2011. т.Vol. 49,N Is. 4.-С.1177-1189
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8.
| Experimental analysis and empirical model of the complex permittivity of five organic soils at 1.4 GHz in the temperature range from −30 °C to 25 °C/V. L. Mironov [et al.] // IEEE Transactions on Geoscience and Remote Sensing, 2019. т.Vol. 51,N Is. 6.-С.3778 - 3787
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9.
| Field test of the surface soil moisture mapping using Sentinel-1 radar data/A. M. Zeyliger, K. V. Muzalevskiy, E. V. Zinchenko, O. S. Ermolaeva // Science of the Total Environment, 2022. т.Vol. 807,N Part 2.- Ст.151121
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10.
| First use of the Meteor-M No. 2/MTVZA-GYa radiometer for remote sensing of soil moisture and temperature in the Arctic region/K. V. Muzalevskiy [et al.] // Progress in Electromagnetics Research Symposium - Spring:IEEE, 2017.-С.1426-1429
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11.
| Fomin S. V. A dielectric model for frozen mineral soils at a frequency of 435 MHz/S. Fomin, K. Muzalevskiy // Remote Sensing Letters, 2021. т.Vol. 12,N Is. 9.-С.944-950
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12.
| High moisture resistance of an efficient Mn4+-activated red phosphor Cs2NbOF5:Mn4+ for WLEDs/J. Zhou, Y. Chen, C. Jiang [et al.] // Chemical Engineering Journal, 2021. т.Vol. 405.- Ст.126678
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13.
| Karavaisky A. Yu. Dielectric model of the upper organic layer of forest soils for a frequency of 435 MHz/A. Yu. Karavaisky, Y. I. Lukin // Izvestiya, Atmospheric and Oceanic Physics, 2023. т.Vol. 59,N Is. 9.-С.1208-1219
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14.
| Karavayskiy A. Yu. Influence of dielectric relaxations of soil water on the temperature dependence of soil permittivity/A. Yu. Karavayskiy, Yu. I. Lukin // Optics and Spectroscopy, 2023. т.Vol. 131,N Is. 12.-С.1190-1199
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15.
| Karavayskiy A. Yu. The effect of clay content on the spectra of permetivity of mineral soils at positive temperatures/A. Y. Karavayskiy, Y. I. Lukin // Conference Proceedings - 2023 Radiation and Scattering of Electromagnetic Waves, RSEMW, 2023.-С.456-459
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16.
| L-Band Emission of Rough Soil Surface Covered with a Grass Litter Layer In cluding a Moisture Gradient: Comparison Between Experimental Data and a Numerical Modeling Approach/H. Lawrence, F. Demontoux [et al.] // 3rd International Symposium Recent Advances in Quantitative Remote Sensing, 2010
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17.
| Mikhaylov M. I. Testing semi-empirical model of reflection coefficient based on GNSSR measurements/M. I. Mikhaylov, K. V. Muzalevskiy, V. L. Mironov // IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing:IEEE-Institute Electrical and Electronics Engineers, 2016.-С.5264 - 5267
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18.
| Mironov V. L. A temperature-dependent multi-relaxation spectroscopic dielectric model for thawed and frozen organic soil at 0.05–15 GHz/V. L. Mironov, I. V. Savin // Physics and Chemistry of the Earth, Parts A/B/C:PERGAMON-ELSEVIER SCIENCE LTD, 2015. т.Vol. 83–84:Emerging science and applications with microwave remote sensing data.-С.57-64
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19.
| Mironov V. L. Dielectric model in the frequency range 0.05 to 15 GHz at temperatures −30°C to 25°C for the samples of organic soils and litter collected in Alaska, Yamal, and Siberian Taiga/V. L. Mironov, I. V. Savin, A. Yu. Karavaysky // IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing:IEEE-Institute Electrical and Electronics Engineers, 2016.-С.2684-2687
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20.
| Mironov V. L. Dielectric model of a mineral arctic soil thawed and frozen at 0.05-15 GHz/V. L. Mironov, I. P. Molostov, V. V. Scherbinin // International Siberian Conference on Control and Communications (SIBCON-2015):IEEE-Institute Electrical and Electronics Engineers, 2015.-С.1-7
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