Killing spinor
Template:Short description Killing spinor is a term used in mathematics and physics.
Definition
By the more narrow definition, commonly used in mathematics, the term Killing spinor indicates those twistor spinors which are also eigenspinors of the Dirac operator.<ref>Template:Cite journal</ref><ref>Template:Cite journal</ref><ref>Template:Cite journal</ref> The term is named after Wilhelm Killing.
Another equivalent definition is that Killing spinors are the solutions to the Killing equation for a so-called Killing number.
More formally:<ref>Template:Citation </ref>
- A Killing spinor on a Riemannian spin manifold M is a spinor field <math>\psi</math> which satisfies
- <math>\nabla_X\psi=\lambda X\cdot\psi</math>
- for all tangent vectors X, where <math>\nabla</math> is the spinor covariant derivative, <math>\cdot</math> is Clifford multiplication and <math>\lambda \in \mathbb{C}</math> is a constant, called the Killing number of <math>\psi</math>. If <math>\lambda=0</math> then the spinor is called a parallel spinor.
Applications
In physics, Killing spinors are used in supergravity and superstring theory, in particular for finding solutions which preserve some supersymmetry. They are a special kind of spinor field related to Killing vector fields and Killing tensors.
Properties
If <math>\mathcal{M}</math> is a manifold with a Killing spinor, then <math>\mathcal{M}</math> is an Einstein manifold with Ricci curvature <math>Ric=4(n-1)\alpha^2 </math>, where <math>\alpha</math> is the Killing constant.<ref>Template:Cite journal</ref>
Types of Killing spinor fields
If <math>\alpha</math> is purely imaginary, then <math>\mathcal{M}</math> is a noncompact manifold; if <math>\alpha</math> is 0, then the spinor field is parallel; finally, if <math>\alpha</math> is real, then <math>\mathcal{M}</math> is compact, and the spinor field is called a ``real spinor field."