Existence of stable wormholes on a non-commutative-geometric background in modified gravity
TL;DR: In this article, the authors discuss spherically symmetric wormhole solutions in f(R, T) modified theory of gravity by introducing well-known non-commutative geometry in terms of Gaussian and Lorentzian distributions of string theory.
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Abstract: In this paper, we discuss spherically symmetric wormhole solutions in f(R, T) modified theory of gravity by introducing well-known non-commutative geometry in terms of Gaussian and Lorentzian distributions of string theory. For analytic discussion, we consider an interesting model of f(R, T) gravity defined by $$f(R,T)=f_{1}(R)+\lambda T$$
. By taking two different choices for the function $$f_{1}(R)$$
, that is, $$f_{1}(R)=R$$
and $$f_{1}(R)=R+\alpha R^{2}+\gamma R^{n}$$
, we discuss the possible existence of wormhole solutions. In the presence of non-commutative Gaussian and Lorentzian distributions, we get exact and numerical solutions for both these models. By taking appropriate values of the free parameters, we discuss different properties of these wormhole models analytically and graphically. Further, using an equilibrium condition, it is found that these solutions are stable. Also, we discuss the phenomenon of gravitational lensing for the exact wormhole model and it is found that the deflection angle diverges at the wormhole throat.
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Citations
Traversable wormhole geometries in $f(Q)$ gravity
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Noncommutative wormhole solutions in modified f(R) theory of gravity
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Non-commutative wormholes exhibiting conformal motion in Rastall gravity
TL;DR: In this article, the existence of wormhole solutions using conformal symmetries in Rastall theory of gravity is explored using the energy density profiles of Gaussian and Lorentzian distributions of noncommutative geometry.
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Static traversable wormholes in f(R,T)=R+2αlnT gravity
Nisha Godani,Gauranga C. Samanta +1 more
TL;DR: In this article, a new form of non-linear f(R, T) function was introduced to obtain the exact wormhole solutions in general relativity and the radius of the throat or the spherical region, with satisfied energy conditions, was determined and the presence of exotic matter was minimized.
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Propagation of polar gravitational waves in f(R, T) scenario
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TL;DR: In this paper, the propagation of polar gravitational waves in the spatially flat FRW universe consisting of a perfect fluid in the scenario of f(R, T) gravity was investigated and the field equations were formulated for both unperturbed as well as perturbed spacetimes.
42
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