Summary: Fourth and finally, we present a computational imaging system that allows capturing the decomposed measurements used by our heterogeneous inverse scattering algorithms. Our system is based on interferometric techniques, and specifically on the optical coherence tomography framework. Our use of interferometry allows us to capture these decompositions at micron-scale resolutions, two to three orders of magnitude larger than previously possible. Such resolutions are necessary when collecting measurements for inverse scattering applications. We describe how to construct and optimize an optical assembly for this technique, and we build a prototype to measure and visualize scattering materials, and other optical phenomena.