Prof Andre Lukas

Monad Bundles in Heterotic String Compactifications

(2008)

Authors:

Lara B Anderson, Yang-Hui He, Andre Lukas

An abundance of heterotic vacua

JOURNAL OF HIGH ENERGY PHYSICS (2008) ARTN 027

Authors:

Maxime Gabella, Yang-Hui He, Andre Lukas

Monad bundles in heterotic string compactifications

JOURNAL OF HIGH ENERGY PHYSICS (2008) ARTN 104

Authors:

Lara Anderson, Yang-Hui He, Andre Lukas

Flux, gaugino condensation, and antibranes in heterotic M theory

Physical Review D - Particles, Fields, Gravitation and Cosmology 76:12 (2007)

Authors:

J Gray, A Lukas, B Ovrut

Abstract:

We present the potential energy due to flux and gaugino condensation in heterotic M theory compactifications with antibranes in the vacuum. For reasons which we explain in detail, the contributions to the potential due to flux are not modified from those in supersymmetric contexts. The discussion of gaugino condensation is, however, changed by the presence of antibranes. We show how a careful microscopic analysis of the system allows us to use standard results in supersymmetric gauge theory in describing such effects-despite the explicit supersymmetry breaking which is present. Not surprisingly, the significant effect of antibranes on the threshold corrections to the gauge kinetic functions greatly alters the potential energy terms arising from gaugino condensation. © 2007 The American Physical Society.

Heterotic string compactifications on half-flat manifolds II

Journal of High Energy Physics 2007:12 (2007)

Authors:

S Gurrieri, A Lukas, A Micu

Abstract:

In this paper, we continue the analysis of heterotic string compactifications on half-flat mirror manifolds by including the 10-dimensional gauge fields. It is argued, that the heterotic Bianchi identity is solved by a variant of the standard embedding. Then, the resulting gauge group in four dimensions is still E 6 despite the fact that the Levi-Civita connection has SO(6) holonomy. We derive the associated four-dimensional effective theories including matter field terms for such compactifications. The results are also extended to more general manifolds with SU(3) structure. © SISSA 2007.