Probing D0–D6 black hole configuration: Two-loop matrix theory correction to the D0-brane effective action Original Research Article

We present a calculation of the matrix theory 2-loop effective action for a D0-brane in the background of the recently discussed D0–D6 bound state configuration. The effective DBI action of a D0-brane probe in the background of the corresponding four-dimensional non-supersymmetric black hole solution to low-energy type IIA string theory compactified on a 6-torus is known to agree with the matrix theory calculation at 1-loop order, in the limit in which the ratio of the D0-brane to the D6-brane changes carried by the black hole is large. Agreement at two loops between the supergravity description and a conjectured non-abelian BDI effective superYang-Mills description has also been recently reported. However, we find uncanceled ultraviolet divergences in our direct matrix theory calculation of the 2-loop effective action. This is consistent with the expected non-decoupling of massive open string states from the 6-brane.