Mirror Fermat Calabi-Yau Threefolds and Landau-Ginzburg Black Hole Attractors

@article{Bellucci2006MirrorFC,
  title={Mirror Fermat Calabi-Yau Threefolds and Landau-Ginzburg Black Hole Attractors},
  author={S Bellucci and Sergio Ferrara and Alessio Marrani and Armen Yeranyan},
  journal={Rivista Del Nuovo Cimento},
  year={2006},
  pages={1-88}
}
We study black hole attractor equations for one-(complex structure)modulus Calabi-Yau spaces which are the mirror dual of Fermat Calabi-Yau threefolds (CY3s). When exploring non-degenerate solutions near the Landau-Ginzburg point of the moduli space of such 4-dimensional 

Tables from this paper

Attractors in black

We review recent results in the study of attractor horizon geometries (with non‐vanishing Bekenstein‐Hawking entropy) of dyonic extremal d = 4 black holes in supergravity. We focus on 𝒩 = 2, d = 4

Attractor Horizon Geometries of Extremal Black Holes

We report on recent advances in the study of critical points of the “black hole effective potential” VBH (usually named attractors) of N = 2, d = 4 supergravity coupled to nV Abelian vector

Extremal Black Hole and Flux Vacua Attractors

These lectures provide a pedagogical, introductory review of the so-called Attractor Mechanism (AM) at work in two different 4-dimensional frameworks: extremal black holes in N=2 supergravity and N=1

Attractors with large complex structure for one-parameter families of Calabi-Yau manifolds

The attractor equations for an arbitrary one-parameter family of Calabi-Yau manifolds are studied in the large complex structure region. These equations are solved iteratively, generating what we

Stringy dyonic solutions and clifford structures

Using the toroidal compactification of string theory on [Formula: see text]-dimensional tori, [Formula: see text], we investigate dyonic objects in arbitrary dimensions. First, we present a class of

Four-qubit Systems and Dyonic Black Hole-Black Branes in Superstring Theory

Using dyonic solutions in the type IIA superstring theory on Calabi-Yau manifolds, we reconsider the study of black objects and quantum information theory using string/string duality in six

The Attractor Mechanism - ReadingSample

We report on recent results in the study of extremal black hole attractors in N D 2, d D 4 ungauged Maxwell–Einstein supergravities. For homogeneous symmetric scalar manifolds, the three general

Qubit and Fermionic Fock Spaces from Type II Superstring Black Holes

Using Hodge diagram combinatorial data, we study qubit and fermionic Fock spaces from the point of view of type II superstring black holes based on complex compactifications. Concretely, we establish

Ja n 20 07 CERN-PH-TH / 2006-248 Extremal Black Holes in Supergravity

We present the main features of the physics of extremal black holes embedded in supersymmetric theories of gravitation, with a detailed analysis of the attractor mechanism for BPS and non-BPS

References

SHOWING 1-10 OF 77 REFERENCES

Supersymmetric mechanics

With the development of the electronic archives in high-energy physics, there has been increasing questioning of the role of traditional publishing styles, particularly in the production of

New attractors and area codes

In this note we give multiple examples of the recently proposed New Attractors describing supersymmetric flux vacua and non-supersymmetric extremal black holes in IIB string theory. Examples of

Supersymmetry and attractors.

The results provide an explicit model-independent expression for the macroscopic Bekenstein-Hawking entropy of {ital N}=2 black holes which is manifestly duality invariant.

Special geometry

Aspecial manifold is an allowed target manifold for the vector multiplets ofD=4,N=2 supergravity. These manifolds are of interest for string theory because the moduli spaces of Calabi-Yau threefolds

Periods and Duality Symmetries in Calabi-yau Compactifications

We derive the period structure of several one-modulus Calabi-Yau manifolds. With this knowledge we then obtain the generators of the duality group and the mirror map that defines the physical

Republication of: The dynamics of general relativity

This article—summarizing the authors’ then novel formulation of General Relativity—appeared as Chap. 7, pp. 227–264, in Gravitation: an introduction to current research, L. Witten, ed. (Wiley, New

New Attractors

: We derive new algebraic attractor equations describing supersymmetric flux vacua of type IIB string theory. The first term in these equations, proportional to the gravitino mass (the central charge),
...