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Results for DC.creator="A." AND DC.creator="M." AND DC.creator="Glazer" in section 1.6.3 of volume D |
The dielectric impermeability tensor
International Tables for Crystallography (2013). Vol. D, Section 1.6.3.3, p. 157 [ doi:10.1107/97809553602060000905 ]
... been seen how the refractive indices can be described in a crystal in terms of an ellipsoid, known as the indicatrix. ... the coordinate axesThus the dielectric impermeability tensor is described by a second-rank tensor, related inversely to the dielectric tensor. References ...
The optical indicatrix
International Tables for Crystallography (2013). Vol. D, Section 1.6.3.2, pp. 156-157 [ doi:10.1107/97809553602060000905 ]
... light propagates in an anisotropic medium. To solve it in a particular case, treat it as an eigenvector-eigenvalue problem: the ... eigenvectors and the eigenvalues. For example, take the case of a uniaxial crystal. The dielectric tensor is then given by Assume that light propagates along a direction in the plane, at an angle to the ...
The fundamental equation of crystal optics
International Tables for Crystallography (2013). Vol. D, Section 1.6.3.1, pp. 155-156 [ doi:10.1107/97809553602060000905 ]
... in order to understand fully the propagation of light through a general anisotropic crystal, to address the question of the way ... which an electromagnetic wave is affected by its passage through a regular array of atoms or molecules. A full analysis of this problem at a microscopical level ...
Linear optics
International Tables for Crystallography (2013). Vol. D, Section 1.6.3, pp. 155-157 [ doi:10.1107/97809553602060000905 ]
... in order to understand fully the propagation of light through a general anisotropic crystal, to address the question of the way ... which an electromagnetic wave is affected by its passage through a regular array of atoms or molecules. A full analysis of this problem at a microscopical level ...
International Tables for Crystallography (2013). Vol. D, Section 1.6.3.3, p. 157 [ doi:10.1107/97809553602060000905 ]
... been seen how the refractive indices can be described in a crystal in terms of an ellipsoid, known as the indicatrix. ... the coordinate axesThus the dielectric impermeability tensor is described by a second-rank tensor, related inversely to the dielectric tensor. References ...
The optical indicatrix
International Tables for Crystallography (2013). Vol. D, Section 1.6.3.2, pp. 156-157 [ doi:10.1107/97809553602060000905 ]
... light propagates in an anisotropic medium. To solve it in a particular case, treat it as an eigenvector-eigenvalue problem: the ... eigenvectors and the eigenvalues. For example, take the case of a uniaxial crystal. The dielectric tensor is then given by Assume that light propagates along a direction in the plane, at an angle to the ...
The fundamental equation of crystal optics
International Tables for Crystallography (2013). Vol. D, Section 1.6.3.1, pp. 155-156 [ doi:10.1107/97809553602060000905 ]
... in order to understand fully the propagation of light through a general anisotropic crystal, to address the question of the way ... which an electromagnetic wave is affected by its passage through a regular array of atoms or molecules. A full analysis of this problem at a microscopical level ...
Linear optics
International Tables for Crystallography (2013). Vol. D, Section 1.6.3, pp. 155-157 [ doi:10.1107/97809553602060000905 ]
... in order to understand fully the propagation of light through a general anisotropic crystal, to address the question of the way ... which an electromagnetic wave is affected by its passage through a regular array of atoms or molecules. A full analysis of this problem at a microscopical level ...
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