New Insights into the T Tauri Binary Separation Distribution

TL;DR

This study reveals that the previously observed excess of close T Tauri binaries is due to observational bias, and after correcting for this, the true binary separation distribution aligns with that of field stars, highlighting the importance of environment and selection effects.

Contribution

The paper demonstrates that the apparent excess of close T Tauri binaries is a bias and provides a revised, environment-dependent binary separation distribution after correcting for this bias.

Findings

The excess of close binaries is due to observational bias, not actual overabundance.

Corrected separation distributions align with field star populations across environments.

Total binary fraction within 10,000 au is about 52%, lower than previous estimates.

Abstract

For three decades, adaptive optic surveys have revealed an excess of T Tauri binaries across a = 10-100 au in nearby star-forming regions compared to the field population of main-sequence (MS) stars. Such an excess requires that most stars are born in dense clusters and subjected to significant dynamical processing that disrupts such binaries across intermediate separations. However, we demonstrate that the apparent excess is due to an observational selection bias. Close binaries within a < 100 au clear out their dusty circumstellar disks on faster timescales compared to wide binaries and single stars. A magnitude-limited sample is therefore biased toward close binaries that have preferentially cleared out their obscuring disks. We re-examine the separation distribution of pre-MS binaries in low-density Taurus, moderately dense Upper Scorpius, and the extremely dense Orion Nebula Cluster (ONC). By limiting the samples to primary spectral type / mass instead of magnitude, the artificial excess across a = 10-100 au disappears in all three environments. Across wider separations a = 100-4,000 au, Taurus exhibits an excess of companions (mostly tertiaries), the ONC displays a deficit, and Upper Scorpius matches the field MS population. The field derives from an amalgam of all three environments, where Upper Scorpius corresponds to the average birth environment of solar-type stars. The total binary fraction within a < 10,000 au in Taurus is only 52% +/- 7%, substantially lower than the 100% inferred from the biased observations and only slightly higher than the field MS value of 45%. N-body interactions preferentially disrupt outer tertiaries with only marginal dynamical processing of the inner binaries, especially those within a < 100 au.