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    Interacting tachyonic scalar field

    2021-04-26 03:19:52KunduPathakandOjha
    Communications in Theoretical Physics 2021年2期

    A Kundu,S D Pathak,*and V K Ojha

    1 Department of Physics,Lovely Professional University,Phagwara,Punjab,144 411,India

    2 School of Sciences,SAGE University Bhopal,Madhya Pradesh,462 022,India

    Abstract We discuss the coupling between dark energy and matter by considering a homogeneous tachyonic scalar field as a candidate for dark energy.We obtained the functional form of scale factor by assuming that the coupling strength depends linearly on the Hubble parameter and energy density.We also estimated the cosmic age of the Universe for different values of coupling constant.

    Keywords: dark energy,dark matter,scalar field,tachyonic scalar field

    1.Introduction

    In the year 1998,type Ia Supernova observation [1,2]revealed the accelerated expansion of the Universe.To explain the observed accelerated expansion of the Universe,the idea of dark energy has been introduced.One of the remarkable features of dark energy is its negative pressure which results in the negative equation of state (ωde).The observed cosmic acceleration is possible only for ωde< -1/3.The cosmological constant is one of the potential candidates of the dark energy bearing equation of state ωλ=-1.The cosmological constant in the constant dark energy model suffers two serious issues namely the coincidence problem and cosmological constant problem.To resolve these two open problems interacting dark energy model has been proposed by a number of authors [3-24] by considering the dynamical behavior of dark energy.

    In the interacting dark energy models,transfer of energy between the dominant components of the Universe (matter,dark energy,radiation) is considered.The interaction term Q in the interacting dark energy model concern the transfer of energy between the dominant components of the Universe.One of the major challenges in the interacting dark energy model is to fix the exact functional form of coupling term Q.Different functional forms of coupling term have been used over the years [3-10,12].

    In the absence of a fundamental theory of dark sector physics,the choice of coupling strength in interacting dark energy model might be purely phenomenological.One of the motivations to fix the form of coupling term comes from the dimensional argumentativeness applied to the continuity equation of energy for the components of the Universe.The form of coupling strength can be either the linear function of energy density and the Hubble parameter of the field or the function of the first time derivative of energy density.

    In this article,we have discussed the scaling solution of energy density for the two dominant interacting components of the Universe.One component is the scalar field φ which we take as a candidate of dynamical dark energy and the other is dust matter.These two components are interacting via the transfer of their energy into each other.Further,we have estimated the age of the Universe and its variation with the varying coupling constant.

    2.Background theory and motivation

    In this section,we present a brief introduction to the working background theory of interacting dark energy model.The FLWR metric for flat (K=0) Universe given as

    where a(t) is the expansion scale factor and i=1,2,3 represents the spatial component of spacetime.The Friedman equation can be obtained by solving the Einstein field equation for the above metric

    where ρm,ρdeare energy density of dust matter and dark energy respectively.We are considering a dynamical dark energy model.Although cosmological constant is a potential candidate of constant dark energy,we assume the scalar field as a candidate for dynamical dark energy.A number of scalar fields (quintessence,phantom,tachyonic,etc) have been introduced in physics in different contexts.We scrutinize the dynamical behavior of the tachyonic scalar field (TSF) in the interacting dark energy model by assuming it as one of the candidates for dynamical dark energy.

    The Lagrangian of TSF appears in string theory in the formulation of tachyon condensate [25-27] given as

    where V(φ) is the potential of the field.The equation of motion for the spatially homogeneous TSF can be written as

    and the energy-momentum tensor is

    From the energy-momentum tensor equation (3),the T00component gives the energy density while the T11component leads to pressure for the TSF,i.e.

    and

    For the spatially homogeneous TSF,the energy density and the pressure reduces to the following form

    3.Interaction between the components

    We consider the two dominant components of the Universe are spatially homogeneous TSF (as a candidate of dynamical dark energy) and the dust matter.These two components interact via the transfer of energy.The continuity equation leads to conservation of energy for the two-components.For non-interacting case as,we have

    and

    In the absence of the fundamental theory of the dark sector,there are some possible linear and nonlinear functional forms of interaction term Q.One can fix the functional form of Q purely based upon the phenomenological argument which is it should be dimensionally compatible with the left-hand side of equation(4).Thus,it is natural that the coupling parameter Q should be a function of energy density and Hubble parameter or the rate of change of energy density of components.Based on phenomenological motivation,several authors [28-32] proposed different forms of interaction term in the interacting dark energy model.

    In our model we considered a specific functional form of coupling term which is linearly proportional to Hubble parameter H as well as the energy density ρφof the TSF.This form of coupling term has been used in the literature [33].Thus we have the following form for interaction term

    where α is the proportionality constant.One can solve equation (4) for given interaction strength equation (5) to obtain the following scaling solution of the energy density of components [34]

    and

    where β=α + 3(1 + ωφ),is the present value of scalar field (dust matter),and a0is the present value of scale factor.If→0,i.e.for constant φ we get ρφ→ ρλ(someconstant).In this approximation limit TSF mimics the cosmological constant,and we have β=α.Hence,the scaling solution reduces to the following form

    4.Functional form of scale factor

    In this section,we investigate the evolution of the expansion scale factor (a) for the two important cases.The interaction proportionality constant term (α) can be either zero or nonzero.So,we are considering the following two case

    4.1.For α=0

    From the Friedmann equations (equation (2)) along with the scaling solutions equations (6) and (7),we have

    where

    Solving equation(9),we get the analytical expression for x as a function of cosmic time t

    4.2.For α ≠ 0

    In this case,equation (8) leads to the following equation

    where

    Solving equation(11)to obtain an expression of t in terms of x,we have

    where

    The function2F1hypergeometric functional series defined by[35]

    where

    By using the definition of2F1,equation(12)can be rewritten as

    When α=0 (from equations (13)),we have n=1,α′=0,A′ =Aand,B′ =B.Hence,the term inside the bracket of equations (14) can be written as

    Using equation (15) and equation (14) we get

    In the limit α → 0,equation (14) reduces to the same form which we will obtain by integrating the equation (9).

    5.Age of the Universe (AoU)

    The age of the Universe has been discussed in the [14]by considering two-phase (interacting and non-interacting dark energy) evolution of the Universe.Recent data [36]provide the present value of Hubble parameter H0to be approximately 67.66 ± 0.42 km s-1Mpc-1and the present value of normalized energy density parameters are= 0.6889 ±0.0056,= 0.3111 ±0.0056.In this section,we estimate the age of the Universe with and without coupling between the matter and the TSF (candidate of dynamical dark energy).

    5.1.Without interaction (α=0)

    One can find the cosmic age in the absence of interaction by integrating the equation (9) to get

    For the Hubble constant H0=67.66 km s-1Mpc-1,energy density parameter=0.6889,and= 0.3111,we found the age of the Universe to beta≈ 0.9543≈13.52 Gyr .The value ofis≈ 14.167 Gyr.

    Figure 1.Plots of Ωλ and Ωm as a function of η (= ln a)for different values coupling parameter α.The vertical axis represents the present cosmological time.

    5.2.With interaction (α ≠ 0)

    In presence of interaction the age of the Universe can be derived from equation (11) and it comes out be [37]

    which can be modified as

    Thus the equation (17) gives

    The cosmic age of Universe in the presence of coupling α for its various numerical values is(from α=0 to α=0.9)given in the table 1 for=0.6889,= 0.3111.

    6.Variation of Ωλ,Ωm with ln a

    Here we have observed the variation of energy density parameter Ωλand Ωmas a function ofη=lnaby following the method of[38].We can define two new variable X andY such thatDifferentiating X andY with η,we have

    From equations (4),we get

    and from equations (2) we get

    So using,equations(21),(22)in equations(19),equation(20),we get the following set of equations

    Figure 2.Graphical variation of equations (12) for 0.7and 0.3where cosmic time (in the unit of is plotted against normalized dimensionless scale factor x in presence and absence of coupling.

    α AOU in terms of -H01 α AOU in terms of -H01 0 0.964 0 0.964 0.1 0.981 0.1 0.970 0.2 1.001 0.2 0.989 0.3 1.024 0.3 1.010 0.4 1.052 0.4 1.036 0.5 1.088 0.5 1.068 0.6 1.134 0.6 1.109 0.7 1.199 0.7 1.166 0.8 1.311 0.8 1.254 0.9 2.222 0.9 1.459 Table 1.Age of Universe (AOU) ta for different values of coupling c seo cn os nt a dn t o nα e.F(r i ir gs ht t t a ob nl ee) (il se f ft o o r ne)i=s f 0o.r 6 889 =,0.7=,0.31=110..3and

    We have plotted equations (23),(24) in figure 1.In figure 2 we have observed the variation of normalized cosmic time t with scale factor x (equations (12)),and in figure 3 we plotted the data of table 1 which shows the age of Universe for different value of coupling constant α.

    7.Conclusion

    In this article we studied the evolution of scale factor by considering the two interacting components (matter and dark energy) in the spatially flat Universe.We considered the spatially homogeneous TSF as a candidate of dark energy.In the interacting dark energy model,the two components are mutually coupled via coupling parameter Q,and a transfer of energy between the two components is possible.During the interaction,the individual components can violate the energy conservation,but overall energy is conserved.In the absence of a fundamental theory of dark sector the choice of coupling parameter is purely phenomenological.We obtained the age of the Universe in interacting dark energy model and presented in table 1 for different value of coupling constant.We found that with the increase in the value of coupling constant (α),the age of the Universe is also increasing.But as we further increased the value of coupling constant (beyond 1),the age of the Universe turns out to be imaginary which is a non-physical situation.This puts an upper bound to the coupling constant α,and it should be less than 1.We plotted the normalized energy density of dark energy(Ωλ)and matter(Ωm)as a function oflnain figure 1.Figure 2 showed the relationship between the cosmic time and the normalized dimensionless scale factor x.And in figure 3,we plotted the data of table 1 which shows the variation of the age of the Universe with the coupling constant α.

    Figure 3.Graphical variation of table 1.Here we observe the evolution of age of the Universe with the coupling constant α.

    Acknowledgments

    The authors are thankful to reviewers for their useful comments and suggestions.

    ORCID iDs

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