122 research outputs found
QCD at High Energies and Two-Dimensional Field Theory
Previous studies of high-energy scattering in QCD have shown a remarkable
correspondence with two-dimensional field theory. In this paper we formulate a
simple effective model in which this two-dimensional nature of the interactions
is manifest. Starting from the (3+1)-dimensional Yang-Mills action, we
implement the high energy limit via a scaling argument and we
derive from this a simplified effective theory. This effective theory is still
(3+1)-dimensional, but we show that its interactions can to leading order be
summarized in terms of a two-dimensional sigma-model defined on the transverse
plane. Finally, we verify that our formulation is consistent with known
perturbative results. This is a revised and extended version of hep-th 9302104.
In particular, we have added a section that clarifies the connection with
Lipatov's gluon emission vertex.Comment: LaTeX-file, 23 pages, no figures, This is a revised and extended
version of hep-th 930210
Black Hole Evaporation and Complementarity
About twenty years ago Hawking made the remarkable suggestion that the black
hole evaporation process will inevitably lead to a fundamental loss of quantum
coherence. The mechanism by which the quantum radiation is emitted appears to
be insensitive to the detailed history of the black hole, and thus it seems
that most of the initial information is lost for an outside observer. However,
direct examination of Hawking's original derivation (or any later one) of the
black hole emission spectrum shows that one inevitably needs to make reference
to particle waves that have arbitrarily high frequency near the horizon as
measured in the reference frame of the in-falling matter. This exponential
red-shift effect associated with the black hole horizon leads to a breakdown of
the usual separation of length scales, and effectively works as a magnifying
glass that makes the consequences of the short distance, or rather, high energy
physics near the horizon visible at larger scales to an asymptotic observer.Comment: 6 pages, 2 figs. summary of lectures presented by Erik Verlinde at
the 1994 Les Houches Summer School ``Fluctuating Geometries in Statistical
Mechanics and Field Theory.'' (also available at http://xxx.lanl.gov/lh94/ )
(based on work with Y. Kiem, K. Schoutens and H. Verlinde
Spacetime Fluctuations in AdS/CFT
We compute fluctuations in the modular energy of the vacuum associated with a
Rindler-wedge in AdS spacetime in the context of AdS/CFT. We discuss the
possible effect of these energy fluctuations on the spacetime geometry, and on
the traversal time of a light beam propagating from the boundary to the bulk
and back.Comment: 25 pages, 1 figur
De Sitter Space With Finitely Many States: A Toy Story
The finite entropy of de Sitter space suggests that in a theory of quantum
gravity there are only finitely many states. It has been argued that in this
case there is no action of the de Sitter group consistent with unitarity. In
this note we propose a way out of this if we give up the requirement of having
a hermitian Hamiltonian. We argue that some of the generators of the de Sitter
group act in a novel way, namely by mixing in- and out-states. In this way it
is possible to have a unitary S-matrix that is finite-dimensional and,
moreover, de Sitter-invariant. Using Dirac spinors, we construct a simple toy
model that exhibits these features.Comment: 6 pages, LaTe
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