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Higher dimensional bianchi type-V universe in creation-field cosmology

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DOI: 10.4236/ns.2010.25060    4,358 Downloads   9,198 Views   Citations

ABSTRACT

We have studied the Hoyle-Narlikar C-field cosmology with Bianchi type-V non static space- time in higher dimensions. Using methods of Narlikar and Padmanabham [1], the solutions have been studied when the creation field C is a function of time t only as space time is non static. The geometrical and physical aspects for model are also studied.

Conflicts of Interest

The authors declare no conflicts of interest.

Cite this paper

Adhav, K. , Katore, S. , Bansod, A. and Gadodia, P. (2010) Higher dimensional bianchi type-V universe in creation-field cosmology. Natural Science, 2, 484-488. doi: 10.4236/ns.2010.25060.

References

[1] Narlikar, J.V. and Padmanabhan, T. (1985) Creation-field cosmology: A possible solution to singularity, horizon, and flatness problems. Physical Review D, 32(8), 1928- 1934.
[2] Weinberg, S. (1986) Physics in higher dimensions. World Scientific, Singapore.
[3] Chodos, A. and Detweller, S. (1980) Where has the fifth dimension gone? Physical Review D, 21(8), 2167-2170.
[4] Lorentz-Petzold, K. (1985) Higher-dimensional Brans-Dicke cosmologies. General Relativity and Gravi-ation, 17(7), 1189-1195.
[5] Ibanez, J. and Verdaguer, E. (1986) Radiative isotropic cosmologies with extra dimensions. Physical Review D, 34(12), 1202-1208.
[6] Gleiser, R.J. and Diaz, M.C. (1988) Perfect-fluid cosmo- logies with extra dimensions. Physical Review D, 37(12), 3761-3764.
[7] Banerjee, S. and Bhui, B. (1990) Homogeneous Cosmo-logical Model in Higher Dimension. Monthly Notices of the Royal Astronomical Society, 247(1), 57-61.
[8] Reddy, D.R.K. and Venkateswara Rao, N. (2001) Some cosmological models in scalar-tensor theory of gravitation. Astrophysics and Space Science, 277(3), 461-472.
[9] Khadekar, G. and Gaikwad, M. (2001) Higher dimen-sional Bianchi type-V cosmological model in Bimetric theory of relativity. Proceedings of Einstein Foundation International, 11, 95-100.
[10] Adhav, K., Nimkar, A. and Dawande, M. (2007) N–di- mensional string cosmological model in Brans–Dicke theory of gravitation. Astrophysics and Space Science, 310(3-4), 231-235.
[11] Smoot, G.F., et al. (1992) Structure in the COBE diffe-rential microwave radiometer first-year maps. Astrophy- sical Journal, 396(1), 21-25.
[12] Narlikar, J.V., et al. (2003) Inhomogeneities in the mi-crowave background radiation interpreted within the framework of the quasi-steady state cosmology. Astro-physical Journal, 585, 1-11.
[13] Hoyle, F. (1948) A new model for the expanding universe. Monthly Notices of the Royal Astronomical Society, 108(1748), 372-382.
[14] Bondi, H. and Gold, T. (1948) The steady-state theory of the expanding universe. Monthly Notices of the Royal Astronomical Society, 108(3), 252-270.
[15] Hoyle, F. and Narlikar, J.V. (1966) A radical departure from the ‘steady-state’ concept in cosmology. Proeedings of Royal Society (London) A, 290(1421), 162-176.
[16] Hoyle, F. and Narlikar, J.V. (1963) Mach’s principle and the creation of matter. Proceedings of Royal Society (London) A, 273(1352), 1-11.
[17] Hoyle, F. and Narlikar, J.V. (1964) The C-field as a direct particle field. Proceedings of Royal Society (London) A, 282(1389), 178-183.
[18] Chatterjee, S. and Banerjee, A. (2004) C-field cosmology in higher dimensions. General Relativity Gravitation 36(2), 303-313.
[19] Singh, T. and Chaubey, R. (2009) Bianchi type-I, III, V, VI and Kantowski-Sachs universes in creation-field cosmology. Astrophysical Space Science, 321, 5.

  
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