779 research outputs found
The AdS/CFT correspondence in two dimensions
We review recent progress in understanding the anti-de Sitter/conformal field
theory correspondence in the context of two-dimensional dilaton gravity theory.Comment: Contribution to the Proceedings of the Euroconference on "Brane New
World and Noncommutative Geometry", Turin, October 200
Instability of the R^3\times S^1 vacuum in low-energy effective string theory
We present and discuss an euclidean solution of the low-energy effective
string action that can be interpreded as a semiclassical decay process of the
ground state of the theory.Comment: 9 pages, plain-tex file, 2 figures available upon reques
2D Extremal Black Holes as Solitons
We discuss the relationship between two-dimensional (2D) dilaton gravity
models and sine-Gordon-like field theories. We show that there is a one-to-one
correspondence between the solutions of 2D dilaton gravity and the solutions of
a (two fields) generalization of the sine-Gordon model. In particular, we find
a connection between the soliton solutions of the generalized sine-Gordon model
and extremal black hole solutions of 2D dilaton gravity. As a by-product of our
calculations we find a easy way to generate cosmological solutions of 2D
dilaton gravity.Comment: 12 pages, LaTex, no figures, typos correcte
Multi-black holes and instantons in effective string theory
The effective action for string theory which takes into account non-minimal
coupling of moduli admits multi-black hole solutions. The euclidean
continuation of these solutions can be interpreted as an instanton mediating
the splitting and recombination of the throat of extremal magnetically charged
black holes.Comment: 10 pages, plain Te
Solitons in a double pendulums chain model, and DNA roto-torsional dynamics
It was first suggested by Englander et al to model the nonlinear dynamics of
DNA relevant to the transcription process in terms of a chain of coupled
pendulums. In a related paper [q-bio.BM/0604014] we argued for the advantages
of an extension of this approach based on considering a chain of double
pendulums with certain characteristics. Here we study a simplified model of
this kind, focusing on its general features and nonlinear travelling wave
excitations; in particular, we show that some of the degrees of freedom are
actually slaved to others, allowing for an effective reduction of the relevant
equations
Black brane solutions and their solitonic extremal limit in Einstein-scalar gravity
We investigate static, planar, solutions of Einstein-scalar gravity admitting
an anti-de Sitter (AdS) vacuum. When the squared mass of the scalar field is
positive and the scalar potential can be derived from a superpotential, minimum
energy theorems indicate the existence of a scalar soliton. On the other hand,
for these models, no-hair theorems forbid the existence of hairy black brane
solutions with AdS asymptotics. By considering a specific example (an exact
integrable model which has the form of a Toda molecule) and by deriving
explicit exact solution, we show that these models allow for hairy black brane
solutions with non-AdS domain wall asymptotics, whose extremal limit is a
scalar soliton. The soliton smoothly interpolates between a non-AdS domain wall
solution at and an AdS solution near .Comment: 5 pages, no figure
Phase transition and hyperscaling violation for scalar Black Branes
We investigate the thermodynamical behavior and the scaling symmetries of the
scalar dressed black brane (BB) solutions of a recently proposed, exactly
integrable Einstein-scalar gravity model [1], which also arises as
compactification of (p-1)-branes with a smeared charge. The extremal, zero
temperature, solution is a scalar soliton interpolating between a conformal
invariant AdS vacuum in the near-horizon region and a scale covariant metric
(generating hyperscaling violation on the boundary field theory)
asymptotically. We show explicitly that for the boundary field theory this
implies the emergence of an UV length scale (related to the size of the brane),
which decouples in the IR, where conformal invariance is restored. We also show
that at high temperatures the system undergoes a phase transition. Whereas at
small temperature the Schwarzschild-AdS BB is stable, above a critical
temperature the scale covariant, scalar-dressed BB solution, becomes
energetically preferred. We calculate the critical exponent z and the
hyperscaling violation parameter of the scalar-dressed phase. In particular we
show that the hyperscaling violation parameter is always negative. We also show
that the above features are not a peculiarity of the exact integrable model of
Ref.[1], but are a quite generic feature of Einstein-scalar and
Einstein-Maxwell-scalar gravity models for which the squared-mass of the scalar
field is positive and the potential vanishes exponentially as the scalar field
goes to minus infinity.Comment: 20 pages, 4 figures. In the revised version it has been pointed out
that the Einstein-scalar gravity model considered in the paper also arises as
compactification of black p-branes with smeared charge
Exact solutions with AdS asymptotics of Einstein and Einstein-Maxwell gravity minimally coupled to a scalar field
We propose a general method for solving exactly the static field equations of
Einstein and Einstein-Maxwell gravity minimally coupled to a scalar field. Our
method starts from an ansatz for the scalar field profile, and determines,
together with the metric functions, the corresponding form of the scalar
self-interaction potential. Using this method we prove a new no-hair theorem
about the existence of hairy black-hole and black-brane solutions and derive
broad classes of static solutions with radial symmetry of the theory, which may
play an important role in applications of the AdS/CFT correspondence to
condensed matter and strongly coupled QFTs. These solutions include: 1) four-
or generic -dimensional solutions with planar, spherical or hyperbolic
horizon topology; 2) solutions with AdS, domain wall and Lifshitz asymptotics;
3) solutions interpolating between an AdS spacetime in the asymptotic region
and a domain wall or conformal Lifshitz spacetime in the near-horizon region.Comment: Some references adde
Sine-Gordon solitons, auxiliary fields, and singular limit of a double pendulums chain
We consider the continuum version of an elastic chain supporting topological
and non-topological degrees of freedom; this generalizes a model for the
dynamics of DNA recently proposed and investigated by ourselves. In a certain
limit, the non-topological degrees of freedom are frozen, and the model reduces
to the sine-Gordon equations and thus supports well-known topological soliton
solutions. We consider a (singular) perturbative expansion around this limit
and study in particular how the non-topological field assume the role of an
auxiliary field. This provides a more general framework for the slaving of this
degree of freedom on the topological one, already observed elsewhere in the
context of the mentioned DNA model; in this framework one expects such
phenomenon to arise in a quite large class of field-theoretical models.Comment: 18 pages, 2 figure
Dimensional reduction of 4d heterotic string black holes
We perform the spherical symmetric dimensional reduction of
heterotic string theory. We find a class of two-dimensional (2d) dilaton
gravity models that gives a general description of the near-horizon,
near-extremal behavior of four-dimensional (4d) heterotic string black holes.
We show that the duality group of the 4d theory is realized in two dimensions
in terms of Weyl transformations of the metric. We use the 2d dilaton gravity
theory to compute the statistical entropy of the near-extremal 4d,
, black hole.Comment: 12 pages, LaTex fil
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