Invariant stationary vacuum solutions by symmetry analysis and Jacobi elliptic rational expansion method

Abstract: In this paper, new explicit exact solutions for the stationary static Einstein's vacuum field equation are obtained. Symmetry analysis, based on Lie point transformations, is used to derive different similarity solutions. These transformations are used to reduce the equation under investigation into solvable ordinary differential equations, and then some interesting invariant solutions are presented. In addition, some of the solutions are obtained as a result of applying the Jacobi elliptic function expansion … Show more

“…In [24][25][26], the authors presented an improvement of the generalized Jacobi elliptic function (rational) expansion method. It is pertinent to mention that researchers continue to use, develop, and improve the Jacobi function-related method, see [27][28][29]. Moreover, the f 6 -model expansion method is one of the many methods that utilize Jacobi elliptic functions to solve NLPDEs see [30][31][32][33].…”

New solutions of the general elliptic equation and its applications to the new (3 + 1)-dimensional integrable Kadomtsev-Petviashvili equation

“…In [24][25][26], the authors presented an improvement of the generalized Jacobi elliptic function (rational) expansion method. It is pertinent to mention that researchers continue to use, develop, and improve the Jacobi function-related method, see [27][28][29]. Moreover, the f 6 -model expansion method is one of the many methods that utilize Jacobi elliptic functions to solve NLPDEs see [30][31][32][33].…”

New solutions of the general elliptic equation and its applications to the new (3 + 1)-dimensional integrable Kadomtsev-Petviashvili equation

New improvement of the ϕ6-model expansion method and its applications to the new (3+1