Barrow holographic dark energy models in Lyra and general relativity theories
Yıl 2024,
, 119 - 127, 31.08.2024
Arzu Aktaş
,
Sezgin Aygün
Öz
This study investigates the Barrow holographic dark energy (BHDE) matter distribution in the Bianchi I universe model in Lyra and General Relativity Theories. To this end, it obtains exact solutions by Hubble parameter, conservation equation, and BHDE energy density equation and supports them with graphics. The results show that the solutions are in harmony with the functioning of the universe and the nature of dark energy. It finally discusses the need for further research.
Etik Beyan
No approval from the Board of Ethics is required.
Destekleyen Kurum
Çanakkale Onsekiz Mart University The Scientific Research Coordination Unit
Proje Numarası
FHD-2024-4612
Kaynakça
- A. G. Riess, A. V. Filippenko, P. Challis, A. Clocchiatti, A. Diercks, P. M. Garnavich, R. L. Gilliland, C. J. Hogan, S. Jha, R. P. Kirshner, B. Leibundgut, M. M. Phillips, D. Reiss, B. P. Schmidt, R. A. Schommer, R. C. Smith, J. Spyromilio, C. Stubbs, N. B. Suntzeff, J. Tonry, Observational evidence from supernovae for an accelerating universe and a cosmological constant, The Astronomical Journal, 116(3), (1998) 1009.
- S. Perlmutter, G. Aldering, G. Goldhaber, R. A. Knop, P. Nugent, P. G. Castro, S. Deustua, S. Fabbro, A. Goobar, D. E. Groom, I. M. Hook, A. G. Kim, M. Y. Kim, J. C. Lee, N. J. Nunes, R. Pain, C. R. Pennypacker, R. Quimby, C. Lidman, R. S. Ellis, M. Irwin, R. G. McMahon, P. Ruiz-Lapuente, N. Walton, B. Schaefer, B. J. Boyle, A. V. Filippenko, T. Matheson, A. S. Fruchter, N. Panagia, H. J. M. Newberg, W. J. Couch, T. S. C. Project, Measurements of Ω and Λ from 42 high-redshift supernovae, The Astrophysical Journal, 517(2), (1999) 565–586.
- P. J. E. Peebles, B. Ratra, The cosmological constant and dark energy, Reviews of Modern Physics, 75, (2003) 559–606.
- L. Susskind, The world as a hologram, Journal of Mathematical Physics, 36 (11) (1995) 6377– 6396.
- M. Li, A model of holographic dark energy, Physics Letters B, 603 (1-2) (2004) 1–5.
- A. Chanda, A. K. Mitra, S. Dey, S. Ghose, B. C. Paul, Barrow holographic dark energy in Brane world cosmology, Classical and Quantum Gravity, 41 (3) (2024) 035004.
- Pankaj, A. Remya, U. K. Sharma, Cosmological model in Barrow holographic dark energy with Granda-Oliveros cut-off, International Journal of Modern Physics A, 38 (2023) 2350185–6.
- K. Devi, P. Kumar, Recent acceleration and future deceleration in Brans-Dicke theory, General Relativity and Gravitation, 56 (1), (2023) 4.
- Y. Sobhanbabu, R. S. Rao, Y. J. Prasuna, G. Satyanarayana, Kantowski-Sachs Barrow holographic dark energy model in Saez-Ballester theory of gravitation, New Astronomy, 104, (2023) 102066.
- W. Feng, W. Yang, B. Jiang, Y. Wang, T. Han, Y. Wu, Theoretical analysis on the Barrow holographic dark energy in the Finsler-Randers cosmology, International Journal of Modern Physics D, 32 (5) (2023) 2350029.
- A. Remya, U. K. Pankaj, Sharma, N. M. Ali, Cosmological evolution and stability analysis in non-flat universe and Barrow holographic model of dark energy, Astrophysics and Space Science, 368 (3) (2023) 15.
- U. K. Sharma, M. Kumar, G. Varshney, Scalar field models of Barrow holographic dark energy in $f(R,T)$ Gravity, Universe, 8 (12) (2022) 642.
- S. Saha, S. Chattopadhyay, E. Güdekli, A coupled-fluid approach to explore bounce and inflationary cosmology with Barrow holographic as the driving dark fluid, European Physical Journal C, 84 (3) (2024) 314.
- S. Sultana, E. Güdekli, S. Chattopadhyay, Some versions of Chaplygin gas model in modified gravity framework and validity of generalized second law of thermodynamics, Zeitschrift Naturforschung Teil A, 79 (1) (2024) 51–70.
- B. K. Shukla, D. Sofuoğlu, H. Chaudhary, F. Atamurotov, G. Mustafa, Cosmic evolution in $f(Q,T)$ gravity with observational constraints: A comparative analysis with ΛCDM, Journal of High Energy Astrophysics, 43 (2024) 1–14.
- B. K. Shukla, R. K. Tiwari, A. Beesham, D. Sofuoğlu, Cosmology with the late time isotropy of the Bianchi type I model in $f(R,T)$ theory, International Journal of Geometric Methods in Modern Physics, 21 (3) (2024) 2450060–134.
- K. Devi, A. Kumar, P. Kumar, Barrow holographic dark energy model in $f(R,T)$ theory, Astrophysics and Space Science, 369 (7) (2024) 73.
- K. P. Singh, A. J. Meitei, Late time acceleration in Bianchi type-V dark energy cosmological models with linear deceleration parameter, Physica Scripta, 99 (7) (2024) 075046.
- D. D. Pawar, D. K. Raut, A. P. Kale, Two forms of dark energy in fractal cosmological model using specific Hubble parameter, New Astronomy, 110 (2024) 102214.
- A. Ditta, G. Mustafa, S. K. Maurya, D. Sofuoğlu, A. Mahmood, Comparative analysis of dark energy compact stars in $f(T,T)$ and $f(T)$ gravity theories via conformally flat condition, Classical and Quantum Gravity, 41 (15) (2024) 155004.
- M. Srivastava, M. Kumar, S. Srivastava, Barrow holographic dark energy with hybrid expansion law, Gravitation and Cosmology, 28 (1) (2022) 70–80.
Yıl 2024,
, 119 - 127, 31.08.2024
Arzu Aktaş
,
Sezgin Aygün
Proje Numarası
FHD-2024-4612
Kaynakça
- A. G. Riess, A. V. Filippenko, P. Challis, A. Clocchiatti, A. Diercks, P. M. Garnavich, R. L. Gilliland, C. J. Hogan, S. Jha, R. P. Kirshner, B. Leibundgut, M. M. Phillips, D. Reiss, B. P. Schmidt, R. A. Schommer, R. C. Smith, J. Spyromilio, C. Stubbs, N. B. Suntzeff, J. Tonry, Observational evidence from supernovae for an accelerating universe and a cosmological constant, The Astronomical Journal, 116(3), (1998) 1009.
- S. Perlmutter, G. Aldering, G. Goldhaber, R. A. Knop, P. Nugent, P. G. Castro, S. Deustua, S. Fabbro, A. Goobar, D. E. Groom, I. M. Hook, A. G. Kim, M. Y. Kim, J. C. Lee, N. J. Nunes, R. Pain, C. R. Pennypacker, R. Quimby, C. Lidman, R. S. Ellis, M. Irwin, R. G. McMahon, P. Ruiz-Lapuente, N. Walton, B. Schaefer, B. J. Boyle, A. V. Filippenko, T. Matheson, A. S. Fruchter, N. Panagia, H. J. M. Newberg, W. J. Couch, T. S. C. Project, Measurements of Ω and Λ from 42 high-redshift supernovae, The Astrophysical Journal, 517(2), (1999) 565–586.
- P. J. E. Peebles, B. Ratra, The cosmological constant and dark energy, Reviews of Modern Physics, 75, (2003) 559–606.
- L. Susskind, The world as a hologram, Journal of Mathematical Physics, 36 (11) (1995) 6377– 6396.
- M. Li, A model of holographic dark energy, Physics Letters B, 603 (1-2) (2004) 1–5.
- A. Chanda, A. K. Mitra, S. Dey, S. Ghose, B. C. Paul, Barrow holographic dark energy in Brane world cosmology, Classical and Quantum Gravity, 41 (3) (2024) 035004.
- Pankaj, A. Remya, U. K. Sharma, Cosmological model in Barrow holographic dark energy with Granda-Oliveros cut-off, International Journal of Modern Physics A, 38 (2023) 2350185–6.
- K. Devi, P. Kumar, Recent acceleration and future deceleration in Brans-Dicke theory, General Relativity and Gravitation, 56 (1), (2023) 4.
- Y. Sobhanbabu, R. S. Rao, Y. J. Prasuna, G. Satyanarayana, Kantowski-Sachs Barrow holographic dark energy model in Saez-Ballester theory of gravitation, New Astronomy, 104, (2023) 102066.
- W. Feng, W. Yang, B. Jiang, Y. Wang, T. Han, Y. Wu, Theoretical analysis on the Barrow holographic dark energy in the Finsler-Randers cosmology, International Journal of Modern Physics D, 32 (5) (2023) 2350029.
- A. Remya, U. K. Pankaj, Sharma, N. M. Ali, Cosmological evolution and stability analysis in non-flat universe and Barrow holographic model of dark energy, Astrophysics and Space Science, 368 (3) (2023) 15.
- U. K. Sharma, M. Kumar, G. Varshney, Scalar field models of Barrow holographic dark energy in $f(R,T)$ Gravity, Universe, 8 (12) (2022) 642.
- S. Saha, S. Chattopadhyay, E. Güdekli, A coupled-fluid approach to explore bounce and inflationary cosmology with Barrow holographic as the driving dark fluid, European Physical Journal C, 84 (3) (2024) 314.
- S. Sultana, E. Güdekli, S. Chattopadhyay, Some versions of Chaplygin gas model in modified gravity framework and validity of generalized second law of thermodynamics, Zeitschrift Naturforschung Teil A, 79 (1) (2024) 51–70.
- B. K. Shukla, D. Sofuoğlu, H. Chaudhary, F. Atamurotov, G. Mustafa, Cosmic evolution in $f(Q,T)$ gravity with observational constraints: A comparative analysis with ΛCDM, Journal of High Energy Astrophysics, 43 (2024) 1–14.
- B. K. Shukla, R. K. Tiwari, A. Beesham, D. Sofuoğlu, Cosmology with the late time isotropy of the Bianchi type I model in $f(R,T)$ theory, International Journal of Geometric Methods in Modern Physics, 21 (3) (2024) 2450060–134.
- K. Devi, A. Kumar, P. Kumar, Barrow holographic dark energy model in $f(R,T)$ theory, Astrophysics and Space Science, 369 (7) (2024) 73.
- K. P. Singh, A. J. Meitei, Late time acceleration in Bianchi type-V dark energy cosmological models with linear deceleration parameter, Physica Scripta, 99 (7) (2024) 075046.
- D. D. Pawar, D. K. Raut, A. P. Kale, Two forms of dark energy in fractal cosmological model using specific Hubble parameter, New Astronomy, 110 (2024) 102214.
- A. Ditta, G. Mustafa, S. K. Maurya, D. Sofuoğlu, A. Mahmood, Comparative analysis of dark energy compact stars in $f(T,T)$ and $f(T)$ gravity theories via conformally flat condition, Classical and Quantum Gravity, 41 (15) (2024) 155004.
- M. Srivastava, M. Kumar, S. Srivastava, Barrow holographic dark energy with hybrid expansion law, Gravitation and Cosmology, 28 (1) (2022) 70–80.