Professor Joseph Conlon

Moduli-Induced Vacuum Destabilisation

(2010)

Authors:

Joseph P Conlon, Francisco G Pedro

Kinetic mixing of U(1)s for local string models

ArXiv 1009.238 (2010)

Authors:

Mathew Bullimore, Joseph P Conlon, Lukas T Witkowski

Abstract:

We study kinetic mixing between massless U(1)s in toroidal orbifolds with D3-branes at orbifold singularities. We focus in particular on C^3/Z_4 singularities but also study C^3/Z_6 and C^3/Z'_6 singularities. We find kinetic mixing can be present and describe the conditions for it to occur. Kinetic mixing comes from winding modes in the N=2 sector of the orbifold. If kinetic mixing is present its size depends only on the complex structure modulus of the torus and is independent of the K\"ahler moduli. We also study gauge threshold corrections for local Z_M x Z_N orbifold models finding that, consistent with previous studies, gauge couplings run from the bulk winding scale rather than the string scale.

Kinetic mixing of U(1)s for local string models

(2010)

Authors:

Mathew Bullimore, Joseph P Conlon, Lukas T Witkowski

Anomaly Mediation in Superstring Theory

ArXiv 1008.4361 (2010)

Authors:

Joseph P Conlon, Mark Goodsell, Eran Palti

Abstract:

We study anomaly mediated supersymmetry breaking in type IIB string theory and use our results to test the supergravity formula for anomaly mediated gaugino masses. We compute 1-loop gaugino masses for models of D3-branes on orbifold singularities with 3-form fluxes by calculating the annulus correlator of 3-form flux and two gauginos in the zero momentum limit. Consistent with supergravity expectations we find both anomalous and running contributions to 1-loop gaugino masses. For background Neveu-Schwarz H-flux we find an exact match with the supergravity formula. For Ramond-Ramond flux there is an off-shell ambiguity that precludes a full matching. The anomaly mediated gaugino masses, while determined by the infrared spectrum, arise from an explicit sum over UV open string winding modes. We also calculate brane-to-brane tree-level gravity mediated gaugino masses and show that there are two contributions coming from the dilaton and from the twisted modes, which are suppressed by the full T^6 volume and the untwisted T^2 volume respectively.

Anomaly Mediation in Superstring Theory

(2010)

Authors:

Joseph P Conlon, Mark Goodsell, Eran Palti