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Extended decoupled anisotropic solutions in $f (ℛ, 𝒯, ℛ_{γ χ} 𝒯^{γ χ})$ gravity

M. Sharif

https://orcid.org/0000-0001-6845-3506

Department of Mathematics and Statistics, The University of Lahore, 1-KM Defence Road Lahore, Pakistan

E-mail Address: msharif.math@pu.edu.pk

Corresponding author.

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Tayyab Naseer

Department of Mathematics, University of the Punjab, Quaid-i-Azam Campus, Lahore 54590, Pakistan

E-mail Address: tayyabnaseer48@yahoo.com

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https://doi.org/10.1142/S021827182240017XCited by:21 (Source: Crossref)

This article is part of the issue:

Selected papers of the 4th PU International Conference on Gravitation and Cosmology
Guest editors: Muhammad Sharif, Francesco De Paolis, Gonzalo J. Olmo and M. Zaeem Ul Haq Bhatti

Abstract

In this paper, we consider static spherical structure to develop some anisotropic solutions by employing the extended gravitational decoupling scheme in the background of $f (ℛ, 𝒯, ℛ_{γ χ} 𝒯^{γ χ})$ gravity, where $ℛ$ and $𝒯$ indicate the Ricci scalar and trace of the energy–momentum tensor, respectively. We transform both radial as well as temporal metric functions and apply them on the field equations that produce two different sets corresponding to the decoupling parameter $ξ$ . The first set is associated with isotropic distribution, i.e. modified Krori–Barua solution. The second set is influenced from anisotropic factor and contains unknowns which are determined by taking some constraints. The impact of decoupling parameter is then analyzed on the obtained physical variables and anisotropy. We also investigate energy conditions and some other parameters such as mass, compactness and redshift graphically. It is found that our solution corresponding to pressure-like constraint shows stable behavior throughout in this gravity for the considered range of $ξ$ .

Keywords:

PACS: 04.50.Kd, 04.40.Dg, 04.40.−b

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References

1. S. Nojiri and S. D. Odintsov, Phys. Rev. D 68 (2003) 123512. Crossref, Web of Science, ADS, Google Scholar
2. G. Cognola et al., J. Cosmol. Astropart. Phys. 02 (2005) 010. Crossref, Web of Science, ADS, Google Scholar
3. Y. S. Song, W. Hu and I. Sawicki, Phys. Rev. D 75 (2007) 044004. Crossref, Web of Science, ADS, Google Scholar
4. S. Capozziello et al., Phys. Rev. D 83 (2011) 064004. Crossref, Web of Science, ADS, Google Scholar
5. M. Sharif and H. R. Kausar, J. Cosmol. Astropart. Phys. 07 (2011) 022. Crossref, Web of Science, ADS, Google Scholar
6. S. Arapoğlu, C. Deliduman and K. Y. Ekşi, J. Cosmol. Astropart. Phys. 07 (2011) 020. Crossref, Web of Science, ADS, Google Scholar
7. M. Sharif and Z. Yousaf, Astropart. Phys. 56 (2014) 19. Crossref, Web of Science, ADS, Google Scholar
8. A. V. Astashenok, S. Capozziello and S. D. Odintsov, Phys. Rev. D 89 (2014) 103509. Crossref, Web of Science, ADS, Google Scholar
9. O. Bertolami et al., Phys. Rev. D 75 (2007) 104016. Crossref, Web of Science, ADS, Google Scholar
10. T. Harko et al., Phys. Rev. D 84 (2011) 024020. Crossref, Web of Science, ADS, Google Scholar
11. Z. Haghani et al., Phys. Rev. D 88 (2013) 044023. Crossref, Web of Science, ADS, Google Scholar
12. M. Sharif and M. Zubair, J. Cosmol. Astropart. Phys. 11 (2013) 042. Crossref, Web of Science, ADS, Google Scholar
13. M. Sharif and M. Zubair, J. High Energy Phys. 12 (2013) 079. Crossref, Web of Science, ADS, Google Scholar
14. S. D. Odintsov and D. Sáez-Gómez, Phys. Lett. B 725 (2013) 437. Crossref, Web of Science, ADS, Google Scholar
15. I. Ayuso, J. B. Jiménez and A. De la Cruz-Dombriz, Phys. Rev. D 91 (2015) 104003. Crossref, Web of Science, ADS, Google Scholar
16. E. H. Baffou, M. J. S. Houndjo and J. Tosssa, Astrophys. Space Sci. 361 (2016) 376. Crossref, Web of Science, ADS, Google Scholar
17. Z. Yousaf, M. Z. Bhatti and T. Naseer, Eur. Phys. J. Plus 135 (2020) 353. Crossref, Web of Science, Google Scholar
18. Z. Yousaf, M. Z. Bhatti and T. Naseer, Phys. Dark Univ. 28 (2020) 100535. Crossref, Web of Science, Google Scholar
19. Z. Yousaf, M. Z. Bhatti and T. Naseer, Int. J. Mod. Phys. D 29 (2020) 2050061. Link, Web of Science, ADS, Google Scholar
20. Z. Yousaf, M. Z. Bhatti and T. Naseer, Ann. Phys. 420 (2020) 168267. Crossref, Web of Science, Google Scholar
21. Z. Yousaf et al., Phys. Dark Univ. 29 (2020) 100581. Crossref, Web of Science, Google Scholar
22. Z. Yousaf et al., Mon. Not. R. Astron. Soc. 495 (2020) 4334. Crossref, Web of Science, ADS, Google Scholar
23. M. Sharif and T. Naseer, Chin. J. Phys. 73 (2021) 179. Crossref, Web of Science, Google Scholar
24. T. Naseer and M. Sharif, Universe 8 (2022) 62. Crossref, Web of Science, ADS, Google Scholar
25. M. Sharif and T. Naseer, Phys. Scr. 97 (2022) 055004. Crossref, Web of Science, Google Scholar
26. M. Sharif and T. Naseer, arXiv:2203.03268v1 [gr-qc]. Google Scholar
27. M. Sharif and A. Waseem, Eur. Phys. J. Plus 131 (2016) 190. Crossref, Web of Science, Google Scholar
28. M. Sharif and A. Waseem, Can. J. Phys. 94 (2016) 1024. Crossref, Web of Science, ADS, Google Scholar
29. S. K. Maurya et al., Phys. Rev. D 100 (2019) 044014. Crossref, Web of Science, ADS, Google Scholar
30. M. F. Shamir and I. Fayyaz, Theor. Math. Phys. 202 (2020) 112. Crossref, Web of Science, Google Scholar
31. J. Ovalle, Mod. Phys. Lett. A 23 (2008) 3247. Link, Web of Science, ADS, Google Scholar
32. J. Ovalle and F. Linares, Phys. Rev. D 88 (2013) 104026. Crossref, Web of Science, ADS, Google Scholar
33. R. Casadio, J. Ovalle and R. Da Rocha, Class. Quantum Grav. 32 (2015) 215020. Crossref, Web of Science, ADS, Google Scholar
34. J. Ovalle, Phys. Rev. D 95 (2017) 104019. Crossref, Web of Science, ADS, Google Scholar
35. J. Ovalle et al., Eur. Phys. J. C 78 (2018) 960. Crossref, Web of Science, ADS, Google Scholar
36. L. Gabbanelli, Á. Rincón and C. Rubio, Eur. Phys. J. C 78 (2018) 370. Crossref, Web of Science, ADS, Google Scholar
37. M. Estrada and F. Tello-Ortiz, Eur. Phys. J. Plus 133 (2018) 453. Crossref, Web of Science, Google Scholar
38. M. Sharif and S. Sadiq, Eur. Phys. J. C 78 (2018) 410. Crossref, Web of Science, ADS, Google Scholar
39. M. Sharif and S. Saba, Eur. Phys. J. C 78 (2018) 921. Crossref, Web of Science, ADS, Google Scholar
40. M. Sharif and S. Saba, Chin. J. Phys. 59 (2019) 481. Crossref, Web of Science, Google Scholar
41. M. Sharif and A. Waseem, Ann. Phys. 405 (2019) 14. Crossref, Web of Science, ADS, Google Scholar
42. M. Sharif and A. Waseem, Chin. J. Phys. 60 (2019) 426. Crossref, Web of Science, Google Scholar
43. K. N. Singh et al., Eur. Phys. J. C 79 (2019) 851. Crossref, Web of Science, ADS, Google Scholar
44. S. Hensh and Z. Stuchlík, Eur. Phys. J. C 79 (2019) 834. Crossref, Web of Science, ADS, Google Scholar
45. J. Ovalle, Phys. Lett. B 788 (2019) 213. Crossref, Web of Science, ADS, Google Scholar
46. E. Contreras and P. Bargueño, Class. Quantum Grav. 36 (2019) 215009. Crossref, Web of Science, ADS, Google Scholar
47. M. Sharif and Q. Ama-Tul-Mughani, Ann. Phys. 415 (2020) 168122. Crossref, Web of Science, Google Scholar
48. M. Sharif and Q. Ama-Tul-Mughani, Chin. J. Phys. 65 (2020) 207. Crossref, Web of Science, Google Scholar
49. M. Sharif and S. Saba, Int. J. Mod. Phys. D 29 (2020) 2050041. Link, Web of Science, ADS, Google Scholar
50. M. Sharif and A. Majid, Chin. J. Phys. 68 (2020) 406. Crossref, Web of Science, Google Scholar
51. M. Sharif and A. Majid, Phys. Dark Univ. 30 (2020) 100610. Crossref, Web of Science, Google Scholar
52. M. Sharif and A. Majid, Phys. Scr. 96 (2021) 035002. Crossref, Web of Science, Google Scholar
53. K. D. Krori and J. Barua, J. Phys. A: Math. Gen. 8 (1975) 508. Crossref, Web of Science, ADS, Google Scholar
54. H. A. Buchdahl, Phys. Rev. D 116 (1959) 1027. Crossref, Web of Science, ADS, Google Scholar
55. B. V. Ivanov, Phys. Rev. D 65 (2002) 104011. Crossref, Web of Science, ADS, Google Scholar
56. H. Heintzmann and W. Hillebrandt, Astron. Astrophys. 38 (1975) 51. Web of Science, ADS, Google Scholar