HOPS-288: A Laboratory for Complex Organics in Proto-multiple Systems

TL;DR

This study uses ALMA observations to analyze the physical structure, kinematics, and complex organic molecule compositions in the proto-triple system HOPS-288, revealing hot corinos and an intervening component that suggest chemical similarities in proto-multiple systems.

Contribution

First detailed ALMA analysis of a proto-triple system focusing on COMs, revealing hot corinos and potential shock regions, advancing understanding of chemical inheritance in multiple star formation.

Findings

Identification of two hot corinos rich in COMs

Detection of an intervening component possibly indicating shocks

Similar COM column densities in both proto-stellar members

Abstract

Complex organic molecules (COMs) in young stellar objects (YSOs) have attracted significant attention in recent years due to their potential connection to pre-biotic chemistry and their utility as tracers of warm or shocked gas components. Proto-binary and multiple systems with close separations are particularly valuable targets for investigating chemical inheritance and reaction, as their members are expected to form from similar material in their parental cloud. We present ALMA observations of the hierarchical proto-triple system HOPS-288, focusing on the physical structure, kinematics, and COM compositions. The system is treated as a proto-binary system consisting of HOPS-288-A and HOPS-288-B due to the limited spatial resolutions, with a separation of 200~au. Three COM-rich features are revealed: two hot corinos associated with the two members, rich in a variety of COMs, and an intervening component between the two members traced by CH$_3$OH and tentatively by CH$_3$CHO. The hot corino in HOPS-288-A exhibits rotational features and might trace a disk. The hot corino in HOPS-288-B is also possibly exhibiting rotational motion. The intervening component could possibly trace a shocked region in the circumbinary disk or a bridge between the two members. The column densities of COMs, including $^{13}$CH$_3$OH, CH$_2$DOH, CH$_3$CHO, HCOOCH$_3$, C$_2$H$_5$OH, $^{13}$CH$_3$CN, and NH$_2$CHO, are broadly similar between the two sources, possibly suggesting the complex organic similarities among proto-binary/multiple systems. Given the complexity of the studied physical structures, further detailed investigations will be essential to confirm this result.