Quantum effects on the deflection of light and the Gauss–Bonnet theorem
DOI10.1142/S0219887817501377zbMath1376.83020arXiv1611.00713MaRDI QIDQ5370550
Publication date: 20 October 2017
Published in: International Journal of Geometric Methods in Modern Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1611.00713
renormalization groupGauss-Bonnet theoremquantum correctionsSchwarzschild black holelight deflectionGaussian optical curvature
Black holes (83C57) Applications of differential geometry to physics (53Z05) Renormalization group methods applied to problems in quantum field theory (81T17) Methods of quantum field theory in general relativity and gravitational theory (83C47) Geometry and quantization, symplectic methods (81S10) Curves in Euclidean and related spaces (53A04) Equations of motion in general relativity and gravitational theory (83C10)
Related Items
Cites Work
- Gravitational lensing in the Kerr-Randers optical geometry
- Light-like scattering in quantum gravity
- Cosmology from quantum potential
- Dirac particles tunneling from black holes with topological defects
- Gravitational lensing by black holes
- Evaporation of (quantum) black holes and energy conservation
- Black hole with quantum potential
- The gravity field of a particle
- GAUGE DEPENDENCE OF THE EFFECTIVE AVERAGE ACTION IN EINSTEIN GRAVITY
- Applications of the Gauss–Bonnet theorem to gravitational lensing
- Gravitational lensing in braneworld gravity: formalism and applications
- Maximal Analytic Extension of the Kerr Metric
