In this paper we present an experimental setup based on Laser Optical
Feedback Imaging (LOFI) and on Synthetic Aperture (SA) with translational
scanning by galvanometric mirrors for the purpose of making deep and resolved
images through scattering media. We provide real 2D optical synthetic-aperture
image of a fixed scattering target with a moving aperture and an isotropic
resolution. We demonstrate theoretically and experimentally that we can keep
microscope resolution beyond the working distance. A photometric balance is
made and we show that the number of photons participating in the final image
decreases with the square of the reconstruction distance. This degradation is
partially compensated by the high sensitivity of LOFI