We discuss the relevance of the classical and quantum rolling tachyons inflation in the frame of the standard, p-adic and adelic minisuperspace quantum cosmology. The field theory of tachyon matter proposed by Sen in a zero-dimensional version suggested by Kar leads to a model of a particle moving in a constant external field with quadratic damping. We calculate the exact quantum propagator of the model, as well as, the vacuum states and conditions necessary to construct an adelic generalization.
We analyze the inflationary scenario based on the tachyon field coupled with the radion of the second Randall-Sundrum model (RSII). The tachyon Lagrangian is derived from the dynamics of a 3-brane moving in the five dimensional bulk. The AdS 5 geometry of the bulk is extended to include the radion. Using the Hamiltonian formalism we find four nonlinear field equations supplemented by the modified Friedmann equations of the RSII braneworld cosmology. After a suitable rescaling we reduce the parameters of our model to only one free parameter related to the brane tension and the AdS 5 curvature. We solve the equations numerically assuming a reasonably wide range of initial conditions determined by physical considerations. Varying the free parameter and initial conditions we confront our results with the Planck 2015 data.
A model of tachyon inflation is proposed in the framework of holographic cosmology.The model is based on a holographic braneworld scenario with a D3-brane located at the holographic boundary of an asymptotic ADS 5 bulk. The tachyon field that drives inflation is represented by a DBI action on the brane. We solve the evolution equations analytically in the slow-roll regime and solve the exact equations numerically. We calculate the inflation parameters and compare the results with Planck 2018 data.
The role tachyon fields may play in evolution of early universe is discussed
in this paper. We consider the evolution of a flat and homogeneous universe
governed by a tachyon scalar field with the DBI-type action and calculate the
slow-roll parameters of inflation, scalar spectral index (n), and
tensor-scalar ratio (r) for the given potentials. We pay special attention to
the inverse power potential, first of all to V (x) ~ x?4, and compare the
available results obtained by analytical and numerical methods with those
obtained by observation. It is shown that the computed values of the
observational parameters and the observed ones are in a good agreement for
the high values of the constant X0. The possibility that influence of the
radion field can extend a range of the acceptable values of the constant X0
to the string theory motivated sector of its values is briefly considered.
[Projekat Ministarstva nauke Republike Srbije, br. 176021, br. 174020 i br.
43011]
Articles you may be interested inA SUSY n = 2 approach to closed string tachyon cosmology AIP Conf.
Abstract.A review of non standard Lagrangians present in modern cosmological models will be considered. Well known example of non standard Lagrangian is Dirac-Born-Infeld (DBI) type Lagrangian for tachyon field. Another type of non standard Lagrangian under consideration contains scalar field which describes open p-adic string tachyon and is called p-adic string theory Lagrangian. We will investigate homogenous cases of both DBI and p-adic fields and obtain Lagrangians of the standard type which have the same equations of motions as aforementioned non standard one.
We consider classical and quantum dynamics of a tachyonic system described by a DBI type Lagrangian and inverse cosh potential. This investigation is partially motivated by the string theory and D-brane dynamics, but mostly by their application in cosmological inflation. A formalism for describing dynamics of spatially homogenous tachyon scalar field with this kind of potentials is developed. Classical actions and corresponding quantum propagators in the Feynman path integral approach, both on real and nonarchimedean spaces, are calculated. Possibilities for a quantum adelic generalization of these models are noticed. Cosmological applications are pointed out and discussed.
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