Professor Joseph Conlon

Moduli redefinitions and moduli stabilisation

Journal of High Energy Physics 2010:6 (2010)

Authors:

JP Conlon, FG Pedro

Abstract:

Field redefinitions occur in string compactifications at the one loop level. We review arguments for why such redefinitions occur and study their effect on moduli stabilisation and supersymmetry breaking in the LARGE volume scenario. For small moduli, although the effect of such redefinitions can be larger than that of the α' corrections in both the Kähler and scalar potentials, they do not alter the structure of the scalar potential. For the less well motivated case of large moduli, the redefinitions can dominate all other terms in the scalar potential. We also study the effect of redefinitions on the structure of supersymmetry breaking and soft terms. © SISSA 2010.

Aspects of Flavour and Supersymmetry in F-theory GUTs

ArXiv 0910.2413 (2009)

Authors:

Joseph P Conlon, Eran Palti

Abstract:

We study the constraints of supersymmetry on flavour in recently proposed models of F-theory GUTs. We relate the topologically twisted theory to the canonical presentation of eight-dimensional super Yang-Mills and provide a dictionary between the two. We describe the constraints on Yukawa couplings implied by holomorphy of the superpotential in the effective 4-dimensional supergravity theory, including the scaling with \alpha_{GUT}. Taking D-terms into account we solve explicitly to second order for wavefunctions and Yukawas due to metric and flux perturbations and find a rank-one Yukawa matrix with no subleading corrections.

Aspects of Flavour and Supersymmetry in F-theory GUTs

(2009)

Authors:

Joseph P Conlon, Eran Palti

On Gauge Threshold Corrections for Local IIB/F-theory GUTs

ArXiv 0907.1362 (2009)

Authors:

Joseph P Conlon, Eran Palti

Abstract:

We study gauge threshold corrections for local GUT models in IIB/F-theory. Consistency with holomorphy requirements of supergravity and the Kaplunovsky-Louis formula implies that the unification scale is enhanced by the bulk radius R from the string scale to M_X =RM_S. We argue that the stringy interpretation of this is via a locally uncancelled tadpole sourced by the hypercharge flux. This sources closed string modes propagating into the bulk; equivalently open string gauge coupling running up to the winding scale M_X. The enhancement to R M_s is tied to GUT breaking by a globally trivial hypercharge flux and will occur in all models realising this mechanism.

On Gauge Threshold Corrections for Local IIB/F-theory GUTs

(2009)

Authors:

Joseph P Conlon, Eran Palti