Results 251 to 260 of about 15,351,978 (310)
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Physical Review, 1965
Expressions for the weak-field Faraday effect in cubic materials are presented for the cases of transmission and reflection. These expressions contain the elements of the complex conductivity tensor. General quantum-mechanical expressions for the diagonal and off-diagonal elements of the frequency-dependent conductivity tensor are computed for ...
Bennett, H. S., Stern, E. A.
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Expressions for the weak-field Faraday effect in cubic materials are presented for the cases of transmission and reflection. These expressions contain the elements of the complex conductivity tensor. General quantum-mechanical expressions for the diagonal and off-diagonal elements of the frequency-dependent conductivity tensor are computed for ...
Bennett, H. S., Stern, E. A.
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Phonon Inverse Faraday Effect from Electron-Phonon Coupling.
Physical Review LettersThe phonon inverse Faraday effect describes the emergence of a dc magnetization due to circularly polarized phonons. In this work we present a microscopic formalism for the phonon inverse Faraday effect.
Natalia Shabala, R. Geilhufe
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Magnetic and mechanical Faraday effects
Physical Review A, 1992Larmor's theorem expresses the analogy between the motion of a charged particle in a homogeneous magnetic field and the motion in a system in uniform rotation. This analogy suggests that effects of a magnetic field may have a rotational counterpart.
, Nienhuis, , Woerdman, , Kuscer
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Faraday effect in Sn_2P_2S_6 crystals
Applied Optics, 2008We have revealed a large Faraday rotation in tin thiohypodiphosphate (Sn(2)P(2)S(6)) crystals, which makes this material promising for magneto-optics. The effective Faraday tensor component and the Verdet constant for the direction of the optic axis have been determined by measuring the pure Faraday rotation in Sn(2)P(2)S(6) crystals with both the ...
Oleh, Krupych +4 more
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Canadian Journal of Physics, 1972
The resonant Faraday effect occurs for radiation at frequencies close to the absorption lines of a magneto-active material. In the paper we present a theory for isolated absorption lines with Voigt profiles. The background source is also assumed to have a Voigt profile. The theory shows how the resonant Faraday effect can be used to determine relative
D. M. Camm, F. L. Curzon
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The resonant Faraday effect occurs for radiation at frequencies close to the absorption lines of a magneto-active material. In the paper we present a theory for isolated absorption lines with Voigt profiles. The background source is also assumed to have a Voigt profile. The theory shows how the resonant Faraday effect can be used to determine relative
D. M. Camm, F. L. Curzon
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Faraday effect control in graphene-dielectric structure by optical pumping
Journal of Magnetism and Magnetic Materials, 2019At the terahertz frequency range, 2D material graphene is the most promising candidate for using as a functional part of magnetooptical devices because of discovered giant Faraday rotation and ability to dynamical properties control.
A. Grebenchukov +3 more
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Optics and Photonics News, 1999
Michael Faraday (1791–1867) was born in a village near London into the family of a blacksmith. His family was too poor to keep him at school and, at the age of 13, he took a job as an errand boy in a bookshop. A year later he was apprenticed as a bookbinder for a term of seven years.
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Michael Faraday (1791–1867) was born in a village near London into the family of a blacksmith. His family was too poor to keep him at school and, at the age of 13, he took a job as an errand boy in a bookshop. A year later he was apprenticed as a bookbinder for a term of seven years.
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Physics Today, 1950
In 1846 Michael Faraday discovered that any transparent isotropic medium, which in itself may be optically inactive, would rotate the plane of polarization when placed in a magnetic field.
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In 1846 Michael Faraday discovered that any transparent isotropic medium, which in itself may be optically inactive, would rotate the plane of polarization when placed in a magnetic field.
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International Journal of Theoretical Physics, 1973
The influence of the gravitational field upon the direction of polarization of electromagnetic radiation is generally discussed and for the special case of the gravitational field of a rotating homogeneous ring quantitatively calculated in linear approximation.
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The influence of the gravitational field upon the direction of polarization of electromagnetic radiation is generally discussed and for the special case of the gravitational field of a rotating homogeneous ring quantitatively calculated in linear approximation.
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Faraday effect in nanopolyacetylene
SPIE Proceedings, 2002We measured small Faraday polarization rotation in nanopolyacetylene in a magnetic field approximately 150 Oe. We found that approximately 1% polyacetylene nanoparticles increase up to 50% the polarization rotation angle of the transparent matrix containing them when probed near and at the NPA absorption band.
V. A. Ruilova-Zavgorodnii +3 more
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