Tachyon warm-logamediate inflationary universe model in a high dissipative regime

In the present work, we study the warm tachyon inflation model in the context of "logamediate inflation," where the cosmological scale factor expands as a = a sub(0)exp (A[ln t] super([lambda])). The characteristics of this model in slow-roll approximation are presented in the following tw...

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Veröffentlicht in:	Physical review. D, Particles, fields, gravitation, and cosmology Particles, fields, gravitation, and cosmology, 2013-04, Vol.87 (8), Article 083524
Hauptverfasser:	Setare, M. R., Kamali, V.
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Sprache:	eng
Schlagworte:	Asymptotic properties Dissipation Inflation Inflation (cosmology) Mathematical analysis Mathematical models Scale (ratio) Tachyons
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description	In the present work, we study the warm tachyon inflation model in the context of "logamediate inflation," where the cosmological scale factor expands as a = a sub(0)exp (A[ln t] super([lambda])). The characteristics of this model in slow-roll approximation are presented in the following two cases: (1) The dissipative parameter [Gamma] is a function of the tachyon field [varphi] and (2)[Gamma] is a constant parameter. The level of non-Gaussianity of this model is found for these two cases. Scalar and tensor perturbations for this scenario are presented. The parameters appearing in our model are constrained by recent observational data (WMAP7). Harrison-Zeldovich spectrum, i.e., ns = 1, is approximately obtained for large values of [lambda] (i.e., [lambda] [Asymptotically = to] 50) and for normal values of the number of e-folds, i.e., N [Asymptotically = to] 60. On the other hand, the scale invariant spectrum (Harrison-Zeldovich spectrum) is given by using two parameters in our model. For intermediate inflation, where the cosmological scale factor expands as a = a sub(0)exp (At super([functionof])), this spectrum has been exactly obtained using one parameter, i.e., [functionof] = 2/3 M. R. Setare and V. Kamali, J. Cosmol. Astropart. Phys. 08 (2012) 034.
doi_str_mv	10.1103/PhysRevD.87.083524
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R. ; Kamali, V.</creator><creatorcontrib>Setare, M. R. ; Kamali, V.</creatorcontrib><description>In the present work, we study the warm tachyon inflation model in the context of "logamediate inflation," where the cosmological scale factor expands as a = a sub(0)exp (A[ln t] super([lambda])). The characteristics of this model in slow-roll approximation are presented in the following two cases: (1) The dissipative parameter [Gamma] is a function of the tachyon field [varphi] and (2)[Gamma] is a constant parameter. The level of non-Gaussianity of this model is found for these two cases. Scalar and tensor perturbations for this scenario are presented. The parameters appearing in our model are constrained by recent observational data (WMAP7). Harrison-Zeldovich spectrum, i.e., ns = 1, is approximately obtained for large values of [lambda] (i.e., [lambda] [Asymptotically = to] 50) and for normal values of the number of e-folds, i.e., N [Asymptotically = to] 60. 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D, Particles, fields, gravitation, and cosmology</title><description>In the present work, we study the warm tachyon inflation model in the context of "logamediate inflation," where the cosmological scale factor expands as a = a sub(0)exp (A[ln t] super([lambda])). The characteristics of this model in slow-roll approximation are presented in the following two cases: (1) The dissipative parameter [Gamma] is a function of the tachyon field [varphi] and (2)[Gamma] is a constant parameter. The level of non-Gaussianity of this model is found for these two cases. Scalar and tensor perturbations for this scenario are presented. The parameters appearing in our model are constrained by recent observational data (WMAP7). Harrison-Zeldovich spectrum, i.e., ns = 1, is approximately obtained for large values of [lambda] (i.e., [lambda] [Asymptotically = to] 50) and for normal values of the number of e-folds, i.e., N [Asymptotically = to] 60. On the other hand, the scale invariant spectrum (Harrison-Zeldovich spectrum) is given by using two parameters in our model. For intermediate inflation, where the cosmological scale factor expands as a = a sub(0)exp (At super([functionof])), this spectrum has been exactly obtained using one parameter, i.e., [functionof] = 2/3 M. R. Setare and V. Kamali, J. Cosmol. Astropart. 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D, Particles, fields, gravitation, and cosmology</jtitle><date>2013-04-25</date><risdate>2013</risdate><volume>87</volume><issue>8</issue><artnum>083524</artnum><issn>1550-7998</issn><eissn>1550-2368</eissn><abstract>In the present work, we study the warm tachyon inflation model in the context of "logamediate inflation," where the cosmological scale factor expands as a = a sub(0)exp (A[ln t] super([lambda])). The characteristics of this model in slow-roll approximation are presented in the following two cases: (1) The dissipative parameter [Gamma] is a function of the tachyon field [varphi] and (2)[Gamma] is a constant parameter. The level of non-Gaussianity of this model is found for these two cases. Scalar and tensor perturbations for this scenario are presented. The parameters appearing in our model are constrained by recent observational data (WMAP7). Harrison-Zeldovich spectrum, i.e., ns = 1, is approximately obtained for large values of [lambda] (i.e., [lambda] [Asymptotically = to] 50) and for normal values of the number of e-folds, i.e., N [Asymptotically = to] 60. On the other hand, the scale invariant spectrum (Harrison-Zeldovich spectrum) is given by using two parameters in our model. For intermediate inflation, where the cosmological scale factor expands as a = a sub(0)exp (At super([functionof])), this spectrum has been exactly obtained using one parameter, i.e., [functionof] = 2/3 M. R. Setare and V. Kamali, J. Cosmol. Astropart. Phys. 08 (2012) 034.</abstract><doi>10.1103/PhysRevD.87.083524</doi></addata></record>
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title	Tachyon warm-logamediate inflationary universe model in a high dissipative regime
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