The Ophiuchus DIsk Survey Employing ALMA (ODISEA): Complete Size Distributions for the 100 Brightest Disks Across Multiplicity and SED Classes

Abstract

The size of a protoplanetary disk is a fundamental property, yet most remain unresolved, even in nearby star-forming regions (d 140-200 pc). We present the complete continuum size distribution for the 105 brightest protoplanetary disks (Mdust 2 M) in the Ophiuchus cloud, obtained from ALMA Band 8 (410 GHz) observations at 0.05 (7 au) to 0.15 (21 au) resolution. This sample includes 54 Class II and 51 Class I and Flat Spectrum sources, providing a comprehensive distribution across evolutionary stages. We measure the Half Width at Half Maximum (HWHM) and the radius encircling 68\% of the flux (R68\%) for most non-binary disks, yielding the largest flux-limited sample of resolved disks in any star-forming region. The distribution is log-normal with a median value of 14 au and a logarithmic standard deviation σ = 0.46 (factor of 2.9 in linear scale). Disks in close binary systems (< 200 au separation) have smaller radii, with median value of 5 au, indicating efficient radial drift as predicted by dust evolution models. The size distribution for young embedded objects (SED Class I and Flat Spectrum, age 1 Myr) is similar to that of Class II objects (age a few Myr), implying that pressure bumps must be common at early disk stages to prevent mm-sized particle migration at au scales.