Inflationary Universe Scenario in Bianchi Type VI 0 Space Time with Flat Potential and Bulk Viscosity in General Relativity
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1 IOS Journal of pplied Physics (IOS-JP) e-issn: Volume 9, Issue Ver. I (Jan. Feb. 07), PP -0 Inflationary Universe Scenario in ianchi Type VI 0 Space Time with Flat Potential and ulk Viscosity in General elativity aj ali and Parmit Kumari CSI Emeritus Scientist, Department of Mathematics, University of ajasthan, Jaipur 000, India Junior esearch Fellow in CSI Major Project, Department of Mathematics, University of ajasthan, Jaipur 000, India bstract: In the present study, we have investigated inflationary cosmological model with flat potential and bulk viscosity taking ianchi Type VI 0 space-time as a source. To get the deterministic model of universe, we have also assumed that shear () is proportional to expansion ()(Thorne []) and = constant as considered by Zimdahal [9] is the coefficient of bulk viscosity. We find that the observations of inflationary cosmology i.e. slow role parameters (,), third slow parameter (S) and anisotropic parameter (Ã m ) are in excellent agreement with the Planck (0) results [9]. We also find that spatial volume increases exponentially representing inflationary scenario of the universe. The model in general represents anisotropic space time but isotropizes when n =. The model also represents accelerating and decelerating phases of universe which matches with latest observations of universe. The rate of Higgs field is initially large but decreases with time and vanishes for large value of time. The model has Point Type singularity at T = 0 (MacCallum [0]). Keywords: Inflationary; ianchi VI 0 ; Flat potential, ulk viscosity I. Introduction The present day universe is satisfactorily described by homogeneous and isotropic models given by FW (Friedmann-obertson-Walker) line-elements. The universe in smaller scale is neither homogeneous nor isotropic nor do we expect the universe to have these properties in its early stages. Patridge and Wilkinson [] have pointed out that FW models are unstable near the singularity. lso in the late eighties, stronomical observations revealed that the predictions of FW models do not always meet our requirements as was believed earlier (Smoot et al. []). Therefore, spatially homogeneous and anisotropic ianchi models (I-IX) are undertaken to study the universe in its early stages of evolution. mong these, ianchi Type I space time is the simplest one and is anisotropic generalization of zero curvature of FW models. ianchi Type VI 0 space-times are of particular interest because these are simple generalization of ianchi Type I space-time. arrow [] in his investigation has pointed out that ianchi Type VI 0 universes give a better explanation of some of the cosmological problems like primordial helium abundance and these can be isotropized in special case. Seeing the importance of these models, various authors viz. Ellis and MacCallum [], Collins [5], Dunn and Tupper [6], oy and Singh [7], Tikekar and Patel [8], ali et al. [9], am and Singh [0] have studied ianchi Type VI 0 cosmological models in different contexts. The introduction of viscosity in the cosmic fluid content, has been found very useful in explaining many significant physical aspects of the dynamics of homogeneous cosmological models as per investigations by many authors viz. ibeiro and Sanyal [], Patel and Koppar [], ali et al. [,], Verma and Shri am [5] in ianchi Type VI 0 models for viscous fluid distribution in different contexts. The primordial acceleration in which the universe undergoes rapid exponential expansion is known as inflation. There is a great interest in the inflationary universe scenario since this scenario solves different problems of modern cosmology like homogeneity, the isotropy, flatness of observed universe and primordial monopole problems. Guth [6] suggested that rapid expansion is due to false vacuum energy and after inflation, the universe is filled with bubbles. This inflationary scenario is also confirmed by CM (Cosmic Microwave ackground) observations. Historically a model closely related to the inflationary universe was first suggested by Starobinsky [7] but the inflationary cosmological models became popular after an important paper of Guth [6]. The most prevailing inflationary models are investigated through the scalar field which acts as a source of inflation and generates cosmic acceleration (Sato [8], Linde [9]). It also explains the distribution of large scale structure and origin of observed anisotropy of CM radiation in the inflationary era (Gold et al. [0]). Inflationary scenario for homogeneous and isotropic models (FW models) has been studied by many authors viz. Linde [], Wald [], arrow [], La and Steinhardt [], othman & Ellis [5] have pointed out that we can have solution for isotropic problem if we work with anisotropic space-time that isotropizes in special case. Keeping in view of these observations ali and Jain [6], ali [7] investigated inflationary scenario in LS ianchi Type I and ianchi Type I space-time respectively. DOI: / Page
2 Inflationary Universe Scenario in ianchi Type VI 0 Space Time with Flat Potential and ulk Viscosity II. Metric and Field Equations We consider ianchi Type VI 0 metric in the form ds x x dt dx e dy C e dz (),,C are metric potentials and functions of t-alone. We assume the co-ordinates to be comoving so that v 0 v v, v. The Lagrangian is that of gravity minimally coupled to a scalar field () with effective potential V(), we have (as given by Stein-Schabes [8]) i j S g g V( d x j i () The Einstein Field equations (in gravitational units G = c = ) in case of massless scalar field with potential V() are given by with j i j j g i 8 Ti () j j j j j T V( g g v v () i i i i i The conservation relation T j 0 leads to i; j g g dv d The Einstein s field equations () for the metric () leads to C C 8 K C C C C 8 K C C 8 K C C 8 K C C C 0 C (0) III. Solution of Field Equations We have assumed flat region to get inflationary scenario. Thus V() = constant = K and = as considered by Zimdahl [9]. The isotropization of the cosmic fluid induced by viscosity is an important physical effect as discussed by revik and Peterson [5,6]. amba et al. [7] have investigated that bulk viscous fluid model can explain the recent Planck results of the observations for inflationary universe. We use the ansatz = constant because it has significant role to connect with occurrence of Little ip (L) cosmology using FW models as given by revik et al. [8]. Equation (0) leads to = mc () m is constant of integration. The equation (5) for the scalar field () leads to DOI: / Page (5) (6) (7) (8) (9)
3 Inflationary Universe Scenario in ianchi Type VI 0 Space Time with Flat Potential and ulk Viscosity dv d suffix indicates ordinary partial derivatives with respect to t. Using the condition of flat region i.e. V() = K (constant) in equation (), we have 0 () From equation (), we have () l is constant of integration. The scale factor for line-element () is given by C (5) To get the deterministic solution in terms of cosmic time t, we assume that shear () is proportional to expansion () as considered by Thorne []. Thus, we have = n (6) and are metric potentials, n is a constant and and 6(a) 6(b) The motive for assuming the condition is explained as: eferring to Thorne [], the observations of the velocity redshift relation for extra galactic sources suggest that the Hubble expansion of the universe is isotropic within 0 percent (Kantowski and Sachs [], Kristian and Sachs []). More precisely, the red shift H studies place the limit 00 is shear and H the Hubble constant. lso Collins et al. [] have pointed out that for spatially homogeneous metric, the normal congruence to the homogeneous hypersurface satisfies the condition = constant. Equations (6) and (9) after using (0) lead to 8 Using equation (6), we have K (n ) 8K (8) To find the solution of equation (8), we assume that f(). Thus equation (8) leads to df (n ) f 8K d From equation (9), we have f (9) 8K n ) n) (0) DOI: / Page () (7)
4 Inflationary Universe Scenario in ianchi Type VI 0 Space Time with Flat Potential and ulk Viscosity is constant of integration. Equation (0) leads to and d dt (K ) m,, (n ) m (n ) m(n ) Thus, we have n sinh ( t () is constant of integration. Now, we have n sinh nt () n n n n sinh n T () n C sinh nt (5) m m t T. fter suitable transformation of coordinates, the metric () leads to the form X X n n/n n n n n ds dt sinh T dx sinh T e dy e dz (6) n n n n m x X y Y z Z () IV. Physical and Geometrical spects The rate of Higgs fields () is given by equation () as sinht which leads to log T tanh N N is constant of integration. The spatial volume ( ) for the model (6) is given by n C m sinht m m e T e Spatial volume increases exponentially, hence represents inflationary universe. T (7) (8) (9) DOI: / Page
5 Inflationary Universe Scenario in ianchi Type VI 0 Space Time with Flat Potential and ulk Viscosity n n shear ( cotht (0) The expansion coth T () n = constant () Deceleration Parameter (q) tanh T () / / q < 0 leads to tanh T > / and q > 0 leads to tanh T < / Thus the model (6) represents accelerating and decelerating phases of universe. The Hubble Parameter ( H) coth T () V. Inflationary Parameters We calculate the inflationary parameters i.e. slow role parameters (,), third slow parameter (S) and anisotropic parameter ( ) for the model (6) to examine whether these parameters are in excellent m agreement with the Planck (0) results [9] for canonical scalar field. The scalar factor () for the model (6) to the first approximation is given by T (5) t (6) The Hubble parameter (H) is given by H T (7) (8) The slow roll parameters and is defined by Unnikrishnan and Sahni [0] as and H H H () Thus slow role PLI (Power Law Inflation) corresponds to < < which occurs when > >. We also discuss a new Power Law Inflation model in which inflation is driven by canonical scalar field with the Lagrangian L( X) X V( () X () is scalar field. For a generic L(,X), it is convenient to introduce a third role parameter S as given by Hu [] (9) (0) DOI: / Page
6 Inflationary Universe Scenario in ianchi Type VI 0 Space Time with Flat Potential and ulk Viscosity C S S T H C S C S is the speed of sound of the scalar field as given by Garriga & Mukhanov [] C L X L L X X X () S Thus S = 0 flow roll inflation requires not only < < and < < but also S < <. For a canonical scalar field, the value of S is identically zero and this is also the case for kinematically driven as well as the noncanonical model (Unnikrishnan et al. []) If is an anisotropy parameter and H, H, H are Hubble parameters in x, y, z directions then anisotropy parameter is defined as H H H H H H (n (6) n ) VI. Discussion and Conclusion We find that spatial volume increases exponentially representing inflationary scenario of the universe. The model in general represents anisotropic space time but isotropizes when n =. The model also represents accelerating and decelerating phases of universe which matches with the recent astronomical observation because the deceleration parameter q < 0 and q > 0 respectively. The rate of Higgs field is initially too large but decreases with time and vanishes for large values of T. The model (6) has Point Type singularity at T = 0 (MacCallum [0]). The rate of Higgs field evolves slowly but the universe expands. The Hubble parameter is initially large but leads to finite quantity for large values of time. t the time of evolution of universe, the anisotropy is constant and during the inflation, it is still homogeneous and anisotropic but isotropizes in special case. We find that the observations of inflationary cosmology i.e. slow role parameters (,), third slow parameter (S) and anisotropic parameter (Ã m ) are in excellent agreement with the Planck (0) results [9]. The results obtained in the manuscript matches with the result of cosmic no-hair theorem that any anisotropic metric is diluted and leads to de-sitter space time asymptotically. eferences []... Patridge and D.T. Wilkinson, Phys. ev. Lett (967). []. Smoot et al., strophys. J. Part Letters. 96. L-L5 (99). []. J. D. arrow, oyal stronomical Society.. (98). []. G.F.. Ellis and M..H. MacCallum, Comm. in Math. Phys.. 08 (969). [5]. C.. Collins, Comm. in Math. Phys.. 7 (97). [6]. K.. Dunn and.o.j. Tupper, The strophys. J. 0. (976). [7]. S.. oy and J.P. Singh, cta Physica ustriaca (98). [8].. Tikekar and L.K. Patel, Pramana J. Phys.. 8 (99). [9].. ali,. anerjee and S.K. anerjee, Electron. J. Theor. Phys (009). [0]. S. am and P. Singh, strophys. & Space Sci (99). []..M. ibeiro and.k. Sanyal, J. of Mathematical Phys (987). []. L.K. Patel and S.S. Koppar, J. of ustralian Mathematical Society Series.. 77 (99). [].. ali,. anerjee and S.K. anerjee, strophys. and Space Sci. 7. (008). [].. ali,. Pradhan and. Hassan, Int. J. Theor. Phys (008). [5]. M.K. Verma and S. am, pplied Mathematics.. 8 (0). [6]..H. Guth, Phys. ev. D. 7 (98). [7]... Starobinsky, Phys. Lett (980). [8]. K. Sato, Monthly Not. oy. stron. Soc (98a). [9].. Linde, Chaotic Inflation. Phys. Lett (98). [0].. Gold et al., strophys. J. Suppl. series (0). [].. Linde, Phys. Lett (98). DOI: / Page (5)
7 Inflationary Universe Scenario in ianchi Type VI 0 Space Time with Flat Potential and ulk Viscosity []..M. Wald, Phys. ev. D (98). []. J.D. arrow, Phys. Lett (987). []. D. La and P.J. Steinhardt, Phys. ev. Lett (989). [5]. T. othman and G.F.. Ellis, Phys. Lett (986). [6].. ali and V.C. Jain, Pramana J. Phys. 59. (00). [7].. ali, Int. J. Theor. Phys (0). [8]. J.. Stein-Schabes, Phys. ev. D (987). [9]. W. Zimdahl, Phys. ev. D (996). [0]. M..H. MacCallum, Comm. Math. Phys (97). []. K.S. Thorne, strophys. J (967). [].. Kantowaski and.k. Sachs, J. Math. Phys. 7. (966). []. J. Kristian and.k. Sachs, J. Math. Phys.. 79 (966). []. C.. Collins, E.N. Glass and D.. Wilkinson, Gen. elativ. Gravit (980). [5]. I. revik and S.V. Peterson, Phys. ev. D 56. (997). [6]. I. revik and S.V. Peterson, Phys. ev. D (000). [7]. K. amba, D. Sergei, S.D. Odintsov, arxiv: v[gr-qc] (05). [8]. I. revick, S. Elizalde and S.D. Odintsov, Phys. ev. D (0). [9]. P... de et al., Planck 0 results. arxiv:0.508 (0). [0]. S. Unnikrishnan and V. Sahni, arxiv:05.560v (astro-ph.co) (0). []. W. Hu, Phys. ev. D (0). []. J. Garriga and V.F. Mukhanov, Phys. Lett (999). []. S. Unnikrishnan, V. Sahni and. Toporensky, J. Cosmology and stroparticle Phys (0). DOI: / Page
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