Hidden symmetries for ellipsoid–solitonic deformations of Kerr–Sen black holes and quantum anomalies

@article{Vacaru2011HiddenSF,
  title={Hidden symmetries for ellipsoid–solitonic deformations of Kerr–Sen black holes and quantum anomalies},
  author={Sergiu I. Vacaru},
  journal={The European Physical Journal C},
  year={2011},
  volume={73},
  pages={1-16}
}
  • S. Vacaru
  • Published 6 June 2011
  • Mathematics
  • The European Physical Journal C
We prove the existence of hidden symmetries in the general relativity theory defined by exact solutions with generic off-diagonal metrics, nonholonomic (non-integrable) constraints, and deformations of the frame and linear connection structure. A special role in characterization of such spacetimes is played by the corresponding nonholonomic generalizations of Stackel–Killing and Killing–Yano tensors. There are constructed new classes of black hole solutions and we study hidden symmetries for… 
View on Springer
arxiv.org
14 Citations
Background Citations
9
Methods Citations
4

14 Citations

Off-diagonal deformations of Kerr metrics and black ellipsoids in heterotic supergravity

Geometric methods for constructing exact solutions of equations of motion with first order $$\alpha ^{\prime }$$α′ corrections to the heterotic supergravity action implying a nontrivial Yang–Mills

Black holes with MDRs and Bekenstein–Hawking and Perelman entropies for Finsler–Lagrange–Hamilton Spaces

Deforming black hole and cosmological solutions by quasiperiodic and/or pattern forming structures in modified and Einstein gravity

We elaborate on the anholonomic frame deformation method, AFDM, for constructing exact solutions with quasiperiodic structure in modified gravity theories, MGTs, and general relativity, GR. Such

Deforming black hole and cosmological solutions by quasiperiodic and/or pattern forming structures in modified and Einstein gravity

We elaborate on the anholonomic frame deformation method, AFDM, for constructing exact solutions with quasiperiodic structure in modified gravity theories, MGTs, and general relativity, GR. Such

Generic off-diagonal solutions and solitonic hierarchies in (modified) gravity

We have summarized our recent results on encoding exact solutions of field equations in Einstein and modified gravity theories into solitonic hierarchies derived for nonholonomic curve flows with

Quantum geometric information flows and relativistic generalizations of G. Perelman thermodynamics for nonholonomic Einstein systems with black holes and stationary solitonic hierarchies

We investigate classical and quantum geometric information flow theories (GIFs and QGIFs) when the geometric flow evolution and field equations for nonholonomic Einstein systems, NES, are derived

Quantum geometric information flows and relativistic generalizations of G. Perelman thermodynamics for nonholonomic Einstein systems with black holes and stationary solitonic hierarchies

We investigate classical and quantum geometric information flow theories (GIFs and QGIFs) when the geometric flow evolution and field equations for nonholonomic Einstein systems, NES, are derived

Geometric Flows and Perelman's Thermodynamics for Black Ellipsoids in $R^2$ and Einstein Gravity Theories

Heterotic Supergravity with Internal Almost-K\"ahler Configurations and Gauge $SO(32)$, or $E_8 \times E_8$, Instantons

Heterotic supergravity with (1+3)-dimensional domain wall configurations and (warped) internal, six dimensional, almost-Kahler manifolds $\ ^6\mathbf{X} $ are studied. Considering on ten dimensional

Ghost-free massive $$f(R)$$f(R) theories modeled as effective Einstein spaces and cosmic acceleration

We study how massive ghost-free gravity $$f(R)$$f(R)-modified theories, MGFTs, can be encoded into generic off-diagonal Einstein spaces. Using “auxiliary” connections completely defined by the metric

References

SHOWING 1-10 OF 46 REFERENCES

Generalized hidden symmetries and the Kerr-Sen black hole

We elaborate on basic properties of generalized Killing-Yano tensors which naturally extend Killing-Yano symmetry in the presence of skew-symmetric torsion. In particular, we discuss their

Warped solitonic deformations and propagation of black holes in 5D vacuum gravity

In this paper we use the anholonomic frames method to construct exact solutions for vacuum 5D gravity with metrics having off-diagonal components. The solutions are, in general, anisotropic and

Hidden Symmetries of Higher Dimensional Black Holes and Uniqueness of the Kerr-NUT-(A)dS spacetime

We prove that the most general solution of the Einstein equations with the cosmological constant which admits a principal conformal Killing-Yano tensor is the Kerr-NUT-(A)dS metric. Even when the

Curve Flows and Solitonic Hierarchies Generated by Einstein Metrics

We investigate bi-Hamiltonian structures and mKdV hierarchies of solitonic equations generated by (semi) Riemannian metrics and curve flows of non-stretching curves. There are applied methods of the

Einstein gravity in almost Kähler and Lagrange–Finsler variables and deformation quantization

Nonholomic Distributions and Gauge Models of Einstein Gravity

For (2+2)-dimensional nonholonomic distributions, the physical information contained into a spacetime (pseudo) Riemannian metric can be encoded equivalently into new types of geometric structures and

Branes and Quantization for an A-Model Complexification of Einstein Gravity in Almost Kahler Variables

The general relativity theory is redefined equivalently in almost Kahler variables: symplectic form and canonical symplectic connection (distorted from the Levi-Civita connection by a tensor

Generalized Killing-Yano equations in D=5 gauged supergravity

On General Solutions for Field Equations in Einstein and Higher Dimension Gravity

We prove that the Einstein equations can be solved in a very general form for arbitrary spacetime dimensions and various types of vacuum and non-vacuum cases following a geometric method of

Applications of hidden symmetries to black hole physics

This work is a brief review of applications of hidden symmetries to black hole physics. Symmetry is one of the most important concepts of the science. In physics and mathematics the symmetry allows