Without using the customary Clifford algebras frequently studied in connection with the representations of orthogonal groups, this book gives an elementaryintroduction to the two-component spinor formalism for four-dimensional spaces with any signature. Some of the useful applications of four-dimensional spinors, such as Yang–Mills theory, are derived in detail using illustrative examples. Key topics and features: Uniform treatment of the spinor formalism for four-dimensional spaces of any signature, not only the usual signature (+ + + ?)employed in relativity Examples taken from Riemannian geometry and special orgeneral relativity are discussed in detail, emphasizing the usefulness of thetwo-component spinor formalism Exercises in each chapter The relationship of Clifford algebras and Dirac four-component spinors is established Applicationsof the two-component formalism, focusing mainly on general relativity, are presented in the context of actual computations Spinors in Four-Dimensional Spaces is aimed at graduate students and researchers in mathematical and theoretical physics interested in the applications of the two-component spinor formalism in any four-dimensional vector space or Riemannian manifold with a definite or indefinite metric tensor. This systematic and self-contained book is suitable as a seminar text, a reference book, and a self-study guide. * Systematic, coherent exposition throughout * Introductory treatment of spinors, requiring no previous knowledge of spinors or advanced knowledge of Lie groups * Includes a detailed bibliography and index INDICE: 1 Spinor Algebra.-1.1 Orthogonal Groups.-1.2 Null Tetrads and the Spinor Equivalent of a Tensor.-1.3 Spinorial Representation of the Orthogonal Transformations.-1.3.1 Euclidean Signature.-1.3.2 Lorentzian Signature.-1.3.3 Ultrahyperbolic Signature.-1.4 Reflections.-1.5 Clifford Algebra. Dirac Spinors.-1.6 Inner Products. Mate of a Spinor.-1.7 Principal Spinors. Algebraic Classification.-Exercises.-2 Connection and Curvature.-2.1 Covariant Differentiation .- 2.2 Curvature.-2.2.1 Curvature Spinors.-2.2.2 Algebraic Classification of the Conformal Curvature.-2.3 Conformal Rescalings.-2.4 Killing Vectors. Lie Derivative of Spinors.-Exercises.- 3 Applications to General Relativity.-3.1 Maxwell’s Equations.-3.2 Dirac’s Equation .-3.3 Einstein’s Equations.-3.3.1 TheGoldberg–Sachs Theorem.-3.3.2 Space-Times with Symmetries. Ernst Potentials.-3.4 Killing Spinors.-Exercises.-4 Further Applications.-4.1 Self-Dual Yang–Mills Fields.-4.2 H and H H Spaces.-4.3 Killing Bispinors. The Dirac Operator.-Exercises.-A Bases Induced by Coordinate Systems.-References.
- ISBN: 978-0-8176-4983-8
- Editorial: Birkhaüser
- Encuadernacion: Cartoné
- Páginas: 176
- Fecha Publicación: 29/08/2010
- Nº Volúmenes: 1
- Idioma: Inglés
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- ÁLGEBRA