Generalized Ghost Dark Energy Model in Extended Modified Theory of Symmetric Telleparallel Gravity

Abstract

This paper focuses on developing a generalized ghost dark energy model f(Q,T) through the correspondence scheme for a non-interacting scenario involving pressureless matter and a power-law scale factor. We analyze the cosmological implications of our model using the equation of state parameter, ωGGDE-ω'GGDE and the r-s planes. We also examine stability of the model by considering squared speed of sound parameter. The equation of state parameter shows the phantom era, while the squared speed of sound indicates a stable generalized ghost dark energy model throughout the cosmic evolution. The ωGGDE-ω'GGDE plane depicts a freezing region, whereas the r-s plane corresponds to the Chaplygin gas model. We conclude that our results are consistent with the current observational data.