The GUT Scale and Superpartner Masses from Anomaly Mediated
  Supersymmetry Breaking

A. Pomarol; B. C. Allanach; C. Kolda; D. E. Kaplan; D. E. Kaplan; E. Katz; Eduardo Pontón; G. F. Giudice; G.F. Giudice; H. Cheng; H. Goldberg; I. Jack; K. Agashe; K. Agashe; L. Randall; M. A. Luty; M. Graesser; Markus A. Luty; N. Arkani-Hamed; T. Hotta; T. Yanagida; Yael Shadmi; Yuri Shirman; Z. Chacko; Z. Chacko; Z. Chacko; Z. Chacko

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The GUT Scale and Superpartner Masses from Anomaly Mediated Supersymmetry Breaking

Authors: A. Pomarol
B. C. Allanach
C. Kolda
D. E. Kaplan
D. E. Kaplan
E. Katz
Eduardo Pontón
G. F. Giudice
G.F. Giudice
H. Cheng
H. Goldberg
I. Jack
K. Agashe
K. Agashe
L. Randall
M. A. Luty
M. Graesser
Markus A. Luty
N. Arkani-Hamed
T. Hotta
T. Yanagida
Yael Shadmi
Yuri Shirman
Z. Chacko
Z. Chacko
Z. Chacko
Z. Chacko
Publication date: 5 June 2000
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We consider models of anomaly-mediated supersymmetry breaking (AMSB) in which the grand unification (GUT) scale is determined by the vacuum expectation value of a chiral superfield. If the anomaly-mediated contributions to the potential are balanced by gravitational-strength interactions, we find a model-independent prediction for the GUT scale of order

M_{\rm Planck} / (16\pi^2)

. The GUT threshold also affects superpartner masses, and can easily give rise to realistic predictions if the GUT gauge group is asymptotically free. We give an explicit example of a model with these features, in which the doublet-triplet splitting problem is solved. The resulting superpartner spectrum is very different from that of previously considered AMSB models, with gaugino masses typically unifying at the GUT scale.Comment: 17 page

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info:doi/10.1103%2Fphysrevd.64...

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