Anisotropic Universe Models with Positive Cosmological Constant

Paulo Aguiar
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Abstract

Following the recognition of a positive value for the vacuum energy density and the realization that a simple Kantowski-Sachs model might fit the classical tests of cosmology, we study the qualitative behavior of three anisotropic and homogeneous models: Kantowski-Sachs, Bianchi type-I and Bianchi type-III universes, with dust and a cosmological constant, in order to find out which are physically permitted. We find that these models undergo isotropization up to the point that the observations will not be able to distinguish between them and the standard model, except for the Kantowski-Sachs model (Ωk0 0) with ΩΛ0 smaller than some critical value ΩΛM . Even if one imposes that the Universe should be nearly isotropic since the last scattering epoch (z ≈ 1000), meaning that the Universe should have approximately the same Hubble parameter in all directions (considering the COBE 4-Year data), there is still a large range for the matter density pa- rameter compatible with Kantowsky-Sachs and Bianchi type-III if |Ω0 + ΩΛ0 − 1| ≤ δ, for a very small δ . The Bianchi type-I model becomes exactly isotropic owing to our restrictions and we have Ω0 + ΩΛ0 = 1 in this case. Of course, all these models approach locally an exponential expanding state provided the cosmological constant ΩΛ > ΩΛM .
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具有正宇宙常数的各向异性宇宙模型
在认识到真空能量密度为正值并认识到简单的Kantowski-Sachs模型可能符合宇宙学的经典检验之后,我们研究了三种各向异性和均匀模型:Kantowski-Sachs、Bianchi - i型和Bianchi - iii型宇宙,它们具有尘埃和宇宙常数,以找出物理上允许的模型。我们发现,除了Kantowski-Sachs模型(Ωk0 0) (ΩΛ0小于某个临界值ΩΛM)外,这些模型经历了各向同性化,以至于观测结果将无法将它们与标准模型区分开来。即使有人认为宇宙自最后一个散射时期(z≈1000)以来应该几乎是各向同性的,这意味着宇宙应该在所有方向上都具有近似相同的哈勃参数(考虑到COBE 4年的数据),如果|Ω0 + ΩΛ0−1|≤δ,对于非常小的δ,仍然有一个与Kantowsky-Sachs和Bianchi iii型兼容的物质密度参数的大范围。由于我们的限制,Bianchi i型模型变得完全各向同性在这种情况下我们有Ω0 + ΩΛ0 = 1。当然,只要宇宙常数ΩΛ > ΩΛM,所有这些模型都接近局部的指数膨胀状态。
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