Noncommutative geometry inspired Einstein-Gauss-Bonnet black holes

@article{Ghosh2017NoncommutativeGI,
  title={Noncommutative geometry inspired Einstein-Gauss-Bonnet black holes},
  author={Sushant G Ghosh},
  journal={Classical and Quantum Gravity},
  year={2017},
  volume={35},
  pages={085008}
}
Low energy limits of a string theory suggests that the gravity action should include quadratic and higher-order curvature terms, in the form of dimensionally continued Gauss?Bonnet densities. Einstein?Gauss?Bonnet is a natural extension of the general relativity to higher dimensions in which the first and second-order terms correspond, respectively, to general relativity and Einstein?Gauss?Bonnet gravity. We obtain five-dimensional (5D) black hole solutions, inspired by a noncommutative… Expand
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