|
This article is cited in 44 scientific papers (total in 44 papers)
Wall Crossing, Discrete Attractor Flow and Borcherds Algebra
Miranda C. N. Chenga, Erik P. Verlindeb a Jefferson Physical Laboratory, Harvard University, Cambridge, MA 02128, USA
b Institute for Theoretical Physics, University of Amsterdam, Valckenierstraat 65, 1018 XE, Amsterdam, the Netherlands
Abstract:
The appearance of a generalized (or Borcherds–) Kac–Moody algebra in the spectrum of BPS dyons in $\mathcal N=4$, $d=4$ string theory is elucidated. From the low-energy supergravity analysis, we identify its root lattice as the lattice of the $T$-duality invariants of the dyonic charges, the symmetry group of the root system as the extended $S$-duality group $PGL(2,\mathbb Z)$ of the theory, and the walls of Weyl chambers as the walls of marginal stability for the relevant two-centered solutions. This leads to an interpretation for the Weyl group as the group of wall-crossing, or the group of discrete attractor flows. Furthermore we propose an equivalence between a “second-quantized multiplicity” of a charge- and moduli-dependent highest weight vector and the dyon degeneracy, and show that the wall-crossing formula following from our proposal agrees with the wall-crossing formula obtained from the supergravity analysis. This can be thought of as providing a microscopic derivation of the wall-crossing formula of this theory.
Keywords:
generalized Kac–Moody algebra; black hole; dyons.
Received: July 1, 2008; in final form September 23, 2008; Published online October 7, 2008
Citation:
Miranda C. N. Cheng, Erik P. Verlinde, “Wall Crossing, Discrete Attractor Flow and Borcherds Algebra”, SIGMA, 4 (2008), 068, 33 pp.
Linking options:
https://www.mathnet.ru/eng/sigma321 https://www.mathnet.ru/eng/sigma/v4/p68
|
|