PHOTOACOUSTIC TOMOGRAPHY IN ATTENUATING MEDIA WITH PARTIAL DATA

The attenuation of ultrasound waves in photoacoustic and ther-moacoustic imaging presents an important drawback in the applicability of these modalities. This issue has been addressed previously in the applied and theoretical literature, and some advances have been made on the topic. In particular, stability inequalities have been proposed for the inverse problem of initial source recovery with partial observations under the assumption of unique determination of the initial pressure. The main goal of this work is to fill this gap, this is, we prove the uniqueness property for the inverse prob-lem and establish the associated stability estimates as well. The problem of reconstructing the initial condition of acoustic waves in the complete-data set-ting is revisited and a new Neumann series reconstruction formula is obtained for the case of partial observations in a semi-bounded geometry. A numerical simulation is also included to test the method.