We discuss the phenomenology of supersymmetric models in which supersymmetry
breaking terms are induced by the super-Weyl anomaly. Such a scenario is
envisioned to arise when supersymmetry breaking takes place in another world,
i.e., on another brane. We review the anomaly-mediated framework and study in
detail the minimal anomaly-mediated model parametrized by only 3+1 parameters:
M_aux, m_0, \tan\beta, and sign(\mu). The renormalization group equations
exhibit a novel "focus point" (as opposed to fixed point) behavior, which
allows squark and slepton masses to be far above their usual naturalness
bounds. We present the superparticle spectrum and highlight several
implications for high energy colliders. Three lightest supersymmetric particle
(LSP) candidates exist: the Wino, the stau, and the tau sneutrino. For the Wino
LSP scenario, light Wino triplets with the smallest possible mass splittings
are preferred; such Winos are within reach of Run II Tevatron searches.
Finally, we study a variety of sensitive low energy probes, including b -> s
gamma, the anomalous magnetic moment of the muon, and the electric dipole
moments of the electron and neutron.Comment: 32 pages, 17 figure
