Prof Andre Lukas

Stabilizing the Complex Structure in Heterotic Calabi-Yau Vacua

(2010)

Authors:

Lara B Anderson, James Gray, Andre Lukas, Burt Ovrut

Yukawa couplings in heterotic compactification

Communications in Mathematical Physics 297:1 (2010) 95-127

Authors:

LB Anderson, J Gray, D Grayson, YH He, A Lukas

Abstract:

We present a practical, algebraic method for efficiently calculating the Yukawa couplings of a large class of heterotic compactifications on Calabi-Yau three-folds with non-standard embeddings. Our methodology covers all of, though is not restricted to, the recently classified positive monads over favourable complete intersection Calabi-Yau three-folds. Since the algorithm is based on manipulating polynomials it can be easily implemented on a computer. This makes the automated investigation of Yukawa couplings for large classes of smooth heterotic compactifications a viable possibility. © 2010 Springer-Verlag.

G-structures and Domain Walls in Heterotic Theories

(2010)

Authors:

Andre Lukas, Cyril Matti

Exploring positive monad bundles and a new heterotic standard model

Journal of High Energy Physics 2010:2 (2010)

Authors:

LB Anderson, J Gray, YH He, A Lukas

Abstract:

A complete analysis of all heterotic Calabi-Yau compactifications based on positive two-term monad bundles over favourable complete intersection Calabi-Yau threefolds is performed. We show that the original data set of about 7000 models contains 91 standard-like models which we describe in detail. A closer analysis of Wilson-line breaking for these models reveals that none of them gives rise to precisely the matter field content of the standard model. We conclude that the entire set of positive two-term monads on complete intersection Calabi-Yau manifolds is ruled out on phenomenological grounds. We also take a first step in analyzing the larger class of non-positive monads. In particular, we construct a supersymmetric heterotic standard model within this class. This model has the standard model gauge group and an additional U(1) B-L symmetry, precisely three families of quarks and leptons, one pair of Higgs doublets and no anti-families or exotics of any kind. © 2010 SISSA.

Heterotic models from vector bundles on toric Calabi-Yau manifolds

Journal of High Energy Physics 2010:5 (2010)

Authors:

YH He, SJ Lee, A Lukas

Abstract:

We systematically approach the construction of heterotic E8 × E8Calabi-Yau models, based on compact Calabi-Yau three-folds arising from toric geometry and vector bundles on these manifolds. We focus on a simple class of 101 such three-folds with smooth ambient spaces, on which we perform an exhaustive scan and find all positive monad bundles with SU(N), N = 3, 4, 5 structure groups, subject to the heterotic anomaly cancellation constraint. We find that anomaly-free positive monads exist on only 11 of these toric three-folds with a total number of bundles of about 2000. Only 21 of these models, all of them on three-folds realizable as hypersurfaces in products of projective spaces, allow for three families of quarks and leptons. We also perform a preliminary scan over the much larger class of semi-positive monads which leads to about 44000 bundles with 280 of them satisfying the three-family constraint. These 280 models provide a starting point for heterotic model building based on toric three-folds. © SISSA 2010.