M
Mubasher Jamil
Researcher at Zhejiang University of Technology
Publications - 320
Citations - 10850
Mubasher Jamil is an academic researcher from Zhejiang University of Technology. The author has contributed to research in topics: Dark energy & Black hole. The author has an hindex of 58, co-authored 314 publications receiving 9592 citations. Previous affiliations of Mubasher Jamil include National University of Sciences and Technology & L.N.Gumilyov Eurasian National University.
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Reconstruction of some cosmological models in f( R, T ) cosmology
TL;DR: In this paper, the authors reconstruct cosmological models in the framework of f(R,T) gravity, where R is the Ricci scalar and T is the trace of the stress-energy tensor.
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Reconstruction of some cosmological models in f(R,T) gravity
TL;DR: In this article, the authors reconstruct cosmological models in the framework of gravity, where the Ricci scalar and the trace of the stress-energy tensor are reconstructed, and show that the dust fluid reproduces the phantom-non-phantom era and the phantom cosmology.
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Thermodynamics of dark energy interacting with dark matter and radiation
TL;DR: In this article, the authors investigated the validity of the generalized second law of thermodynamics in the cosmological scenario where dark energy interacts with both dark matter and radiation, and they showed that it is always and generally valid, independently of the specific interaction form, of the fluids equation-of-state parameters and of the background geometry.
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Holographic dark energy with varying gravitational constant
TL;DR: In this paper, the authors investigate the holographic dark energy scenario with a varying gravitational constant, in flat and non-flat background geometry, and extract the exact differential equations determining the evolution of the dark energy density-parameter, which include G-variation correction terms.
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Attractor solutions in f(T) cosmology
TL;DR: In this paper, the cosmological implications of interacting dark energy model in a torsion-based gravity namely f(T) were explored, assuming that dark energy interacts with dark matter and radiation components.