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3-D Spinors, Spin-Weighted Functions and their Applications
von Gerardo F. Torres del Castillo
Verlag: Birkhäuser Boston
Reihe: Progress in Mathematical Physics Nr. 32
Gebundene Ausgabe
ISBN: 978-0-8176-3249-6
Auflage: 2003
Erschienen am 25.07.2003
Sprache: Englisch
Format: 241 mm [H] x 160 mm [B] x 19 mm [T]
Gewicht: 565 Gramm
Umfang: 264 Seiten

Preis: 53,49 €
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Klappentext
Inhaltsverzeichnis

The spinor calculus employed in general relativity is a very useful tool; many expressions and computations are considerably simplified if one makes use of spinors instead of tensors. Some advantages of the spinor formalism applied in the four-dimensional space-time of general relativity come from the fact that each spinor index takes two values only, which simplifies the algebraic manipulations. Spinors for spaces of any dimension can be defined in connection with rep­ resentations of orthogonal groups and in the case of spaces of dimension three, the spinor indices also take two values only, which allows us to apply some of the results found in the two-component spinor formalism of four-dimensional space-time. The spinor formalism for three-dimensional spaces has been partially developed, mainly for spaces with a definite metric, also in connection with gen­ eral relativity (e.g., in space-plus-time decompositions of space-time), defining the spinors of three-dimensional space from those corresponding to four-dimensional space-time, but the spinor formalism for three-dimensional spaces considered on their own is not widely known or employed. One of the aims of this book is to give an account of the spinor formalism for three-dimensional spaces, with definite or indefinite metric, and its applications in physics and differential geometry. Another is to give an elementary treatment of the spin-weighted functions and their various applications in mathematical physics.



1 Rotations and Spinors.- 1.1 Representation of the rotations.- 1.2 Spinors.- 1.3 Elementary applications.- 1.4 Spinors in spaces with indefinite metric.- 2 Spin-Weighted Spherical Harmonics.- 2.1 Spherical harmonics.- 2.2 Spin weight.- 2.3 Wigner functions.- 3 Spin-Weighted Spherical Harmonics. Applications.- 3.1 Solution of the vector Helmholtz equation.- 3.2 The source-free electromagnetic field.- 3.3 The equation for elastic waves in an isotropic medium.- 3.4 The Weyl neutrino equation.- 3.5 The Dirac equation.- 3.6 The spin-2 Helmholtz equation.- 3.7 Linearized Einstein theory.- 3.8 Magnetic monopole.- 4 Spin-Weighted Cylindrical Harmonics.- 4.1 Definitions and basic properties.- 4.2 Representation of the Euclidean group of the plane.- 4.3 Applications.- 4.4 Parabolic and elliptic coordinates.- 4.5 Applications.- 5 Spinor Algebra.- 5.1 The spinor equivalent of a tensor.- 5.2 The orthogonal and spin groups.- 5.3 Algebraic classification.- 5.4 The triad defined by a spinor.- 6 Spinor Analysis.- 6.1 Covariant differentiation.- 6.2 Curvature.- 6.3 Spin weight and priming operation.- 6.4 Metric connections with torsion.- 6.5 Congruences of curves.- 6.6 Applications.- 7 Applications to General Relativity.- 7.1 Spacelike hypersurfaces.- 7.2 Timelike hypersurfaces.- 7.3 Stationary space-times.- Appendix: Spinors in the Four-Dimensional Space-Time.- References.


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