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Papers by malay garg
arXiv (Cornell University), Jul 4, 2021
In this paper, we developed three analytical models and obtained a new class of solutions describ... more In this paper, we developed three analytical models and obtained a new class of solutions describing compact stellar structures using the theory of teleparallel gravity. We consider the general anisotropic nature of stellar configurations and solve teleparallel gravity equations. In order to thoroughly analyze the various parameters of the stars, we developed three models by choosing various physically acceptable forms of metric potential e d(r) and radial pressure pr(r). We also analyze the impact of teleparallel gravity's parameters β and β1 on the description of the stellar structures. We calculated model parameters such that models describing various observed neutron stars obey all physical conditions to be potentially stable and causal. By analyzing the impact of various parameters of teleparallel gravity on the description of anisotropic stellar structures, we found that three models developed in this paper can describe anisotropic neutron stars ranging from low density to high density. Finally, we obtain a quadratic Equation of State for each model describing various neutron stars, which can be utilized to find compositions of the stellar structures. It is very useful to find models that can exhibit quadratic EOS, since material compositions of real neutron stars and strange stars are found to exhibit quadratic EOS by various authors. Non linear f (T) model gives high deviation of EOS from quadratic behaviour, thus, in this paper we work with linear f (T) function by using diagonal tetrad to model realistic compact stars.
In this paper, we developed three analytical models and obtained a new class of solutions describ... more In this paper, we developed three analytical models and obtained a new class of solutions describing compact stellar structures using the theory of f (T) gravity. We consider the general anisotropic nature of stellar configurations and solve f (T) gravity equations. In order to thoroughly analyze the various parameters of the stars, we developed three models by choosing various physically acceptable forms of metric potential e (r ) and radial pressure pr (r). We also analyze the impact of f (T) gravity’s parameters β and β1 on the description of the stellar structures. We calculated model parameters such that models describing various observed neutron stars obey all physical conditions to be potentially stable and causal. By analyzing the impact of various parameters of f (T) gravity on the description of anisotropic stellar structures, we found that three models developed in this paper can describe anisotropic neutron stars ranging from low density to high density. Finally, we obta...
In this paper, we developed three analytical models and obtained a new class of solutions describ... more In this paper, we developed three analytical models and obtained a new class of solutions describing compact stellar structures using the theory of teleparallel gravity. We consider the general anisotropic nature of stellar configurations and solve teleparallel gravity equations. In order to thoroughly analyze the various parameters of the stars, we developed three models by choosing various physically acceptable forms of metric potential e and radial pressure pr(r). We also analyze the impact of teleparallel gravity’s parameters β and β1 on the description of the stellar structures. We calculated model parameters such that models describing various observed neutron stars obey all physical conditions to be potentially stable and causal. By analyzing the impact of various parameters of teleparallel gravity on the description of anisotropic stellar structures, we found that three models developed in this paper can describe anisotropic neutron stars ranging from low density to high den...
arXiv (Cornell University), Jul 4, 2021
In this paper, we developed three analytical models and obtained a new class of solutions describ... more In this paper, we developed three analytical models and obtained a new class of solutions describing compact stellar structures using the theory of teleparallel gravity. We consider the general anisotropic nature of stellar configurations and solve teleparallel gravity equations. In order to thoroughly analyze the various parameters of the stars, we developed three models by choosing various physically acceptable forms of metric potential e d(r) and radial pressure pr(r). We also analyze the impact of teleparallel gravity's parameters β and β1 on the description of the stellar structures. We calculated model parameters such that models describing various observed neutron stars obey all physical conditions to be potentially stable and causal. By analyzing the impact of various parameters of teleparallel gravity on the description of anisotropic stellar structures, we found that three models developed in this paper can describe anisotropic neutron stars ranging from low density to high density. Finally, we obtain a quadratic Equation of State for each model describing various neutron stars, which can be utilized to find compositions of the stellar structures. It is very useful to find models that can exhibit quadratic EOS, since material compositions of real neutron stars and strange stars are found to exhibit quadratic EOS by various authors. Non linear f (T) model gives high deviation of EOS from quadratic behaviour, thus, in this paper we work with linear f (T) function by using diagonal tetrad to model realistic compact stars.
In this paper, we developed three analytical models and obtained a new class of solutions describ... more In this paper, we developed three analytical models and obtained a new class of solutions describing compact stellar structures using the theory of f (T) gravity. We consider the general anisotropic nature of stellar configurations and solve f (T) gravity equations. In order to thoroughly analyze the various parameters of the stars, we developed three models by choosing various physically acceptable forms of metric potential e (r ) and radial pressure pr (r). We also analyze the impact of f (T) gravity’s parameters β and β1 on the description of the stellar structures. We calculated model parameters such that models describing various observed neutron stars obey all physical conditions to be potentially stable and causal. By analyzing the impact of various parameters of f (T) gravity on the description of anisotropic stellar structures, we found that three models developed in this paper can describe anisotropic neutron stars ranging from low density to high density. Finally, we obta...
In this paper, we developed three analytical models and obtained a new class of solutions describ... more In this paper, we developed three analytical models and obtained a new class of solutions describing compact stellar structures using the theory of teleparallel gravity. We consider the general anisotropic nature of stellar configurations and solve teleparallel gravity equations. In order to thoroughly analyze the various parameters of the stars, we developed three models by choosing various physically acceptable forms of metric potential e and radial pressure pr(r). We also analyze the impact of teleparallel gravity’s parameters β and β1 on the description of the stellar structures. We calculated model parameters such that models describing various observed neutron stars obey all physical conditions to be potentially stable and causal. By analyzing the impact of various parameters of teleparallel gravity on the description of anisotropic stellar structures, we found that three models developed in this paper can describe anisotropic neutron stars ranging from low density to high den...