Non-singular bouncing General Relativistic Hydrodynamics cosmological models

被引:3
作者
Shaikh, A. Y. [1 ]
Shaikh, A. S. [2 ]
Wankhade, K. S. [3 ]
机构
[1] Indira Gandhi Mahavidyalaya, Dept Math, Ralegaon, India
[2] Poona Coll Arts Sci & Commerce, Dept Math, Pune, Maharashtra, India
[3] YC Sci Coll, Dept Math, Mangrulpir, India
来源
ASTROPHYSICS AND SPACE SCIENCE | 2021年 / 366卷 / 07期
关键词
FRW metric; General relativistic hydrodynamics; General relativity; HUBBLE-SPACE-TELESCOPE; DARK ENERGY; ACCELERATING UNIVERSE; CONSTRAINTS; SUPERNOVAE; DECELERATION; DISCOVERIES; STATEFINDER; SCENARIO;
D O I
10.1007/s10509-021-03977-9
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
We have studied Friedmann-Robertson-Walker (FRW) cosmological models within the presence of General Relativistic Hydrodynamics (GRH) in General Relativity. Exact solutions of the field equations are deduced by considering the special form of the average scale factor considered by Abdussattar and Prajapati (Astrophys. Space Sci. 331:657, 2011), constraining the deceleration parameter and a special form of deceleration parameter by Singh and Debnath (Int. J. Theor. Phys. 48:351, 2009). The value of the deceleration is always negative which represents an inflationary accelerating model of the universe. The cosmic jerk parameter is positive, throughout the entire life of the universe which ensures an accelerated expansion. The Phantom, Chaplygin gas, and Tachyon fields are discussed. The scalar field values of tachyon and phantom increase with time, while the scalar potential values of tachyon and phantom decrease with time.
引用
收藏
页数:10
相关论文
共 58 条
[1]   Early decelerating & late time accelerating anisotropic cosmological models with dynamical EoS parameter [J].
Adhav, K. S. ;
Bansod, A. S. ;
Ajmire, H. G. .
ASTROPHYSICS AND SPACE SCIENCE, 2013, 345 (02) :405-413
[2]   Planck 2018 results: V. CMB power spectra and likelihoods [J].
Aghanim, N. ;
Akrami, Y. ;
Ashdown, M. ;
Aumont, J. ;
Baccigalupi, C. ;
Ballardini, M. ;
Banday, A. J. ;
Barreiro, R. B. ;
Bartolo, N. ;
Basak, S. ;
Benabed, K. ;
Bernard, J. -P. ;
Bersanelli, M. ;
Bielewicz, P. ;
Bock, J. J. ;
Bond, J. R. ;
Borrill, J. ;
Bouchet, F. R. ;
Boulanger, F. ;
Bucher, M. ;
Burigana, C. ;
Butler, R. C. ;
Calabrese, E. ;
Cardoso, J. -F. ;
Carron, J. ;
Casaponsa, B. ;
Challinor, A. ;
Chiang, H. C. ;
Colombo, L. P. L. ;
Combet, C. ;
Crill, B. P. ;
Cuttaia, F. ;
de Bernardis, P. ;
de Rosa, A. ;
de Zotti, G. ;
Delabrouille, J. ;
Delouis, J. -M. ;
Di Valentino, E. ;
Diego, J. M. ;
Dore, O. ;
Douspis, M. ;
Ducout, A. ;
Dupac, X. ;
Dusini, S. ;
Efstathiou, G. ;
Elsner, F. ;
Ensslin, T. A. ;
Eriksen, H. K. ;
Fantaye, Y. ;
Fernandez-Cobos, R. .
ASTRONOMY & ASTROPHYSICS, 2020, 641
[3]   Various dark energy models for variables G and Λ in f (R, T) modified theory [J].
Aktas, Can .
MODERN PHYSICS LETTERS A, 2019, 34 (13)
[4]   Exploring the expanding Universe and dark energy using the statefinder diagnostic [J].
Alam, U ;
Sahni, V ;
Saini, TD ;
Starobinsky, AA .
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY, 2003, 344 (04) :1057-1074
[5]  
[Anonymous], 2011, ASTROPHYS SPACE SCI, DOI DOI 10.1007/s10509-010-0461-4
[6]  
Baiotti L., 2003, Memorie della Societa Astronomica Italiana Supplementi, V1, P210
[7]   Dark energy cosmology: the equivalent description via different theoretical models and cosmography tests [J].
Bamba, Kazuharu ;
Capozziello, Salvatore ;
Nojiri, Shin'ichi ;
Odintsov, Sergei D. .
ASTROPHYSICS AND SPACE SCIENCE, 2012, 342 (01) :155-228
[8]   Acceleration of the universe with a simple trigonometric potential [J].
Banerjee, N ;
Das, S .
GENERAL RELATIVITY AND GRAVITATION, 2005, 37 (10) :1695-1703
[9]   Numerical {3+1} general relativistic hydrodynamics: A local characteristic approach [J].
Banyuls, F ;
Font, JA ;
Ibanez, JM ;
Marti, JM ;
Miralles, JA .
ASTROPHYSICAL JOURNAL, 1997, 476 (01) :221-231
[10]   Antigravity and the big crunch/big bang transition [J].
Bars, Itzhak ;
Chen, Shih-Hung ;
Steinhardt, Paul J. ;
Turok, Neil .
PHYSICS LETTERS B, 2012, 715 (1-3) :278-281
123456