Results 131 to 140 of about 3,157 (178)
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Differential Faraday Rotation and Polarimetric SAR
SIAM Journal on Applied Mathematics, 2018zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Mikhail Gilman, Semyon Tsynkov
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The Faraday rotation of sunspots
Solar Physics, 1987In this paper the numerical solutions of the Unno-Beckers's equations for the magneto-sensitive line Fei λ5250.216 are used to demonstrate the importance and role of Faraday rotation in sunspot magnetic fields and to study the influence of this effect on the measurements of the azimuth of the transverse field.
Ye Shi-Hui, Jin Jie-Hai
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Nonreciprocity and Faraday Rotation at Time Interfaces
Physical Review Letters, 2022Nonreciprocity is critically important in modern wave technologies, yet its general principles and practical implementations continue to raise intense research interest, in particular in the context of broken reciprocity based on spatiotemporal modulation.
Huanan Li, Shixiong Yin, Andrea Alù
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Faraday Rotation in Birefringent Crystals
Journal of Applied Physics, 1970Birefringence complicates the use and measurement of the Faraday effect. The Faraday rotation in nonbirefringent materials increases linearly with path length of the light propagation. However, the observed Faraday rotation in birefringent crystals oscillates about zero as a function of the light path length.
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ABCs of Faraday Rotation in Organic Materials
Journal of the American Chemical Society, 2022Faraday rotation is a magneto-optical effect central to a number of commercial technologies including optical isolation and magneto-optical imaging. Today, the performance needs of these technologies are met by inorganic materials containing paramagnetic heavy elements.
Zachary Nelson +2 more
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Proceedings of the Indian Academy of Sciences - Section A, 1956
The Faraday rotation has been measured in calcite parallel to the optic axis for the wavelengths λ 5893, λ 5780, λ 5461, λ 4358 and λ 4047 A. A dispersion formula for the magnetic rotation has been fitted up using the same absorption frequencies that are used in refractive dispersion.
S. Ramaseshan, V. Sivaramakrishnan
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The Faraday rotation has been measured in calcite parallel to the optic axis for the wavelengths λ 5893, λ 5780, λ 5461, λ 4358 and λ 4047 A. A dispersion formula for the magnetic rotation has been fitted up using the same absorption frequencies that are used in refractive dispersion.
S. Ramaseshan, V. Sivaramakrishnan
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Faraday rotation in BaFe11Co0.5Ti0.5O19
Journal of Magnetism and Magnetic Materials, 1991Abstract Spectral dependences of the optical absorption and the Faraday rotation of flux-grown BaFe11Co0.5Ti0.5O19 single crystal were measured in the visible and near infrared region. The observed behaviour was explained by two paramagnetic and one diamagnetic-like transitions.
Z. Šimša +4 more
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On Faraday Rotation in Cosmology
Publications of the Astronomical Society of Japan, 1972Abstract A comparison is made of Faraday rotation by a cosmic magnetic field in the steady-state and Einstein-de Sitter cosmologies.
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Compensation of Faraday Rotation in Multipolarization Scatterometry
IEEE Transactions on Geoscience and Remote Sensing, 2008The effects of Faraday rotation on spaceborne polarimetric scatterometers are discussed. A method of exploiting an estimate of the Faraday rotation angle to retrieve co-cross polarization is outlined.
Mark Frankford, Joel T. Johnson
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Faraday Rotation Correction for the SMAP Radiometer
IEEE Transactions on Geoscience and Remote Sensing, 2016Faraday rotation is an important issue for remote sensing of parameters such as soil moisture and ocean salinity, which are best done at low microwave frequency (e.g., L-band). Modern instruments such as the radiometer on the Soil Moisture and Ocean Salinity (SMOS) satellite and the Aquarius radiometers include polarimetric radiometer channels ...
David M. Le Vine +2 more
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