Zubair, M. Et Al. 2023. Implications of f (R, T) gravity on the complexity factor of a physically consistent charged anisotropic stellar model. NEW ASTRONOMY , vol.100 .

Zubair, M., Azmat, H., Gudekli, E., Alhowaity, A., & Hamam, H., (2023). Implications of f (R, T) gravity on the complexity factor of a physically consistent charged anisotropic stellar model. NEW ASTRONOMY , vol.100.

Zubair, M. Et Al. "Implications of f (R, T) gravity on the complexity factor of a physically consistent charged anisotropic stellar model," NEW ASTRONOMY , vol.100, 2023

Zubair, M. Et Al. "Implications of f (R, T) gravity on the complexity factor of a physically consistent charged anisotropic stellar model." NEW ASTRONOMY , vol.100, 2023

Zubair, M. Et Al. (2023) . "Implications of f (R, T) gravity on the complexity factor of a physically consistent charged anisotropic stellar model." NEW ASTRONOMY , vol.100.

@article{article, author={M. Zubair Et Al. }, title={Implications of f (R, T) gravity on the complexity factor of a physically consistent charged anisotropic stellar model}, journal={NEW ASTRONOMY}, year=2023}