Non-isotropic Cosmology in 1+3-formalism

Jönsson, Johan

January 2014

Cosmology is an attempt to mathematically describe the behaviour of the universe, the most commonly used models are the Friedmann-Lemaître-Robertson-Walker solutions. These models seem to be accurate for an old universe, which is homogeneous with low anisotropy. However for an earlier universe these models might not be that accurate or even correct. The almost non-existent anisotropy observed today might have played a bigger role in the earlier universe. For this reason we will study another model known as Bianchi Type I, where the universe is not necessarily isotropic. We utilize a 1+3-covariant formalism to obtain the equations that determine the behaviour of the universe and then use a tetrad formalism to complement the 1+3-covariant equations. Using these equations we examine the geometry of space-time and its dynamical properties. Finally we briefly discuss the different singularities possible and examine some special cases of geodesic movement.

Non-isotropic cosmology

Einstein

Relativity

Bianchi Type I

1+3-covariant formalism

Mathematics

Matematik

Lanczos potentialer i kosmologiska rumtider / Lanczos Potentials in Perfect Fluid Cosmologies

Holgersson, David

January 2004

<p>We derive the equation linking the Weyl tensor with its Lanczos potential, called the Weyl-Lanczos equation, in 1+3 covariant formalism for perfect fluid Bianchi type I spacetime and find an explicit expression for a Lanczos potential of the Weyl tensor in these spacetimes. To achieve this, we first need to derive the covariant decomposition of the Lanczos potential in this formalism. We also study an example by Novello and Velloso and derive their Lanczos potential in shear-free, irrotational perfect fluid spacetimes from a particular ansatz in 1+3 covariant formalism. The existence of the Lanczos potential is in some ways analogous to the vector potential in electromagnetic theory. Therefore, we also derive the electromagnetic potential equation in 1+3 covariant formalism for a general spacetime. We give a short description of the necessary tools for these calculations and the cosmological formalism we are using.</p>

Applied mathematics

Weyl-Lanczos equation

Lanczos potentials

1+3 covariant formalism

perfect fluid

cosmology

Bianchi type I models

shear-free and irrotational models

Tillämpad matematik

Applied mathematics

Tillämpad matematik

Lanczos potentialer i kosmologiska rumtider / Lanczos Potentials in Perfect Fluid Cosmologies

Holgersson, David

January 2004

We derive the equation linking the Weyl tensor with its Lanczos potential, called the Weyl-Lanczos equation, in 1+3 covariant formalism for perfect fluid Bianchi type I spacetime and find an explicit expression for a Lanczos potential of the Weyl tensor in these spacetimes. To achieve this, we first need to derive the covariant decomposition of the Lanczos potential in this formalism. We also study an example by Novello and Velloso and derive their Lanczos potential in shear-free, irrotational perfect fluid spacetimes from a particular ansatz in 1+3 covariant formalism. The existence of the Lanczos potential is in some ways analogous to the vector potential in electromagnetic theory. Therefore, we also derive the electromagnetic potential equation in 1+3 covariant formalism for a general spacetime. We give a short description of the necessary tools for these calculations and the cosmological formalism we are using.

Applied mathematics

Weyl-Lanczos equation

Lanczos potentials

1+3 covariant formalism

perfect fluid

cosmology

Bianchi type I models

shear-free and irrotational models

Tillämpad matematik

Applied mathematics

Tillämpad matematik