Add to ORKGSome of the parameters we call ``constants of Nature'' may in fact be variables related to the local values of some dynamical fields. During inflation, these variables are randomized by quantum fluctuations. In cases when the variable in question (call it $\chi$) takes values in a continuous range, all thermalized regions in the universe are statistically equivalent, and a gauge invariant procedure for calculating the probability distribution for $\chi$ is known. This is the so-called ``spherical cutoff method''. In order to find the probability distribution for $\chi$ it suffices to consider a large spherical patch in a single thermalized region. Here, we generalize this method to the case when the range of $\chi$ is discontinuous and ther...
An energetic justification of a thermal component during inflation is given. The thermal component c...
In a previous paper we found that in the context of the string theory ``discretuum'' proposed by Bou...
We show how to obtain the probability density function for the amplitude of the curvature perturbati...
Some of the parameters we call “constants of nature” may in fact be variables related to the local v...
In the context of open inflation, we calculate the probability distribution for the density paramete...
In generic models of cosmological inflation, quantum fluctuations strongly influence the spacetime m...
The problem of assigning probabilities to vacua is notoriously ambiguous in the global description o...
Models of open inflation with a variable density parameter $\Omega$ provide the most natural way to ...
Eternally inflating universes can contain large thermalized regions with different values of the con...
I review recent progress in defining a probability measure in the inflationary multiverse. General r...
In recent literature on eternal inflation, a number of measures have been introduced which attempt t...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2010.Cataloged from PDF ve...
In calculations of the probability distribution for the cosmologicalconstant, it has been previously...
We explore a model in which the cosmological constant $\Lambda$ and the density contrast at the time...
A generic prediction of inflation is that the thermalized region we inhabit is spatially infinite. T...
An energetic justification of a thermal component during inflation is given. The thermal component c...
In a previous paper we found that in the context of the string theory ``discretuum'' proposed by Bou...
We show how to obtain the probability density function for the amplitude of the curvature perturbati...
Some of the parameters we call “constants of nature” may in fact be variables related to the local v...
In the context of open inflation, we calculate the probability distribution for the density paramete...
In generic models of cosmological inflation, quantum fluctuations strongly influence the spacetime m...
The problem of assigning probabilities to vacua is notoriously ambiguous in the global description o...
Models of open inflation with a variable density parameter $\Omega$ provide the most natural way to ...
Eternally inflating universes can contain large thermalized regions with different values of the con...
I review recent progress in defining a probability measure in the inflationary multiverse. General r...
In recent literature on eternal inflation, a number of measures have been introduced which attempt t...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2010.Cataloged from PDF ve...
In calculations of the probability distribution for the cosmologicalconstant, it has been previously...
We explore a model in which the cosmological constant $\Lambda$ and the density contrast at the time...
A generic prediction of inflation is that the thermalized region we inhabit is spatially infinite. T...
An energetic justification of a thermal component during inflation is given. The thermal component c...
In a previous paper we found that in the context of the string theory ``discretuum'' proposed by Bou...
We show how to obtain the probability density function for the amplitude of the curvature perturbati...