In this paper we consider the action of higher derivative gravity up to the second order terms in the scalars made from the Ricci scalar, Ricci and Riemann tensors. We use the Bach- Lanczos identity of the Weyl tensor in four dimensions and show that the solutions of 4-dimensional Einstein equations with cosmological constant term in vacuum, which are known as Einstein metrics, satisfy the field equations of higher derivative gravity. We also find that the field equations of higher derivative gravity are not satisfied by the solutions of Einstein equations in higher dimensions or in the presence of matter.
M. H. Dehghani, and H. Mohammad Pour, (2019). A class of exact solutions of higher derivative gravity in four dimensions. Iranian Journal of Physics Research, 5(3), 153-156.
MLA
M. H. Dehghani, , and H. Mohammad Pour, . "A class of exact solutions of higher derivative gravity in four dimensions", Iranian Journal of Physics Research, 5, 3, 2019, 153-156.
HARVARD
M. H. Dehghani , H. Mohammad Pour (2019). 'A class of exact solutions of higher derivative gravity in four dimensions', Iranian Journal of Physics Research, 5(3), pp. 153-156.
CHICAGO
M. H. Dehghani and H. Mohammad Pour, "A class of exact solutions of higher derivative gravity in four dimensions," Iranian Journal of Physics Research, 5 3 (2019): 153-156,
VANCOUVER
M. H. Dehghani , H. Mohammad Pour A class of exact solutions of higher derivative gravity in four dimensions. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2019; 5(3): 153-156.
