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

.
DOI: 10.4236/ns.2010.25060   PDF   HTML     4,452 Downloads   9,343 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.

Share and Cite:

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.

Conflicts of Interest

The authors declare no conflicts of interest.

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.

  
comments powered by Disqus

Copyright © 2020 by authors and Scientific Research Publishing Inc.

Creative Commons License

This work and the related PDF file are licensed under a Creative Commons Attribution 4.0 International License.