Holographic deformations of matrix models
Abstract
We study maximal supergravity in two dimensions, obtained from reduction of IIA supergravity on an S8 sphere. The theory captures the low-lying fluctuations around the non-conformal D0-brane near-horizon geometry, dual to operators in the BFSS matrix model. Upon exciting some of the supergravity scalars, we construct half-supersymmetric domain wall solutions preserving SO(p)× SO(9-p) subgroups of the original SO(9) symmetry. We determine their uplift to ten dimensions and the corresponding distributions of D0-branes. Finally, we compute the fluctuations around these domain wall backgrounds, corresponding to holographic two-point correlation functions in the Coulomb branch of the matrix model.
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