6 research outputs found
Holographic Multiverse
We explore the idea that the dynamics of the inflationary multiverse is
encoded in its future boundary, where it is described by a lower dimensional
theory which is conformally invariant in the UV. We propose that a measure for
the multiverse, which is needed in order to extract quantitative probabilistic
predictions, can be derived in terms of the boundary theory by imposing a UV
cutoff. In the inflationary bulk, this is closely related (though not
identical) to the so-called scale factor cutoff measure.Comment: 23 pages, 4 figures. Replaced to match published versio
Freak observers and the measure of the multiverse
I suggest that the factor in the pocket-based measure of the
multiverse, , should be interpreted as accounting for equilibrium
de Sitter vacuum fluctuations, while the selection factor accounts for
the number of observers that were formed due to non-equilibrium processes
resulting from such fluctuations. I show that this formulation does not suffer
from the problem of freak observers (also known as Boltzmann brains).Comment: 6 pages, no figures; references adde
Chiral bosonization for non-commutative fields
A model of chiral bosons on a non-commutative field space is constructed and
new generalized bosonization (fermionization) rules for these fields are given.
The conformal structure of the theory is characterized by a level of the
Kac-Moody algebra equal to where is the
non-commutativity parameter and chiral bosons living in a non-commutative
fields space are described by a rational conformal field theory with the
central charge of the Virasoro algebra equal to 1. The non-commutative chiral
bosons are shown to correspond to a free fermion moving with a speed equal to where is the speed of light. Lorentz
invariance remains intact if is rescaled by . The
dispersion relation for bosons and fermions, in this case, is given by .Comment: 16 pages, JHEP style, version published in JHE
Production of photons in a bouncing universe
Using a new non-singular solution,it is shown that the production of photons
in dilaton electrodynamics in a cosmological setting is increased if the effect
of matter creation on the geometry is taken into account. This increment may be
related to the problem of the origin of magnetic fields in the universe.Comment: 7pages, 4 figure