A catalogue of dense cores and young stellar objects in the Lupus complex based on Herschel Gould Belt Survey observations

TL;DR

This study presents a comprehensive catalog of dense cores and young stellar objects in the Lupus molecular clouds, revealing star formation activity at low densities and providing insights into their physical properties and evolutionary stages.

Contribution

The paper offers the first detailed catalog of dense cores and YSOs in Lupus based on Herschel data, including their physical properties and evolutionary status, highlighting star formation in low-density environments.

Findings

532 dense cores identified, 103 prestellar candidates

Prestellar cores associated mainly with filaments

Star formation occurs at low column densities in Lupus

Abstract

The Herschel Gould Belt Survey key project mapped the bulk of nearby star-forming molecular clouds in five far-infrared bands with the aim of compiling complete census of prestellar cores and young, embedded protostars. In this paper, we present the catalogue of the dense cores and YSOs/protostars extracted from the Herschel maps of the Lupus I, III, and IV molecular clouds. The physical properties of the detected objects were derived by fitting their spectral energy distributions. A total of 532 dense cores, out of which 103 are presumably prestellar in nature, and 38 YSOs/protostars have been detected in the three clouds. Almost all the prestellar cores are associated with filaments against only about one third of the unbound cores and YSOs/protostars. Prestellar core candidates are found even in filaments that are on average thermally sub-critical and over a background column density lower than that measured in other star forming regions so far. The core mass function of the prestellar cores peaks between 0.2 and 0.3 solar masses and it is compatible with the log-normal shape found in other regions. Herschel data reveal several, previously undetected, protostars and new candidates of Class 0 and Class II with transitional disks. We estimate the evolutionary status of the YSOs/protostars using two independent indicators: the $\alpha$ index and the fitting of the spectral energy distribution from near- to far-infrared wavelengths. For 70% of the objects, the evolutionary stages derived with the two methods are in agreement. Lupus is confirmed to be a very low-mass star-forming region, both in terms of the prestellar condensations and of the diffuse medium. Noticeably, in the Lupus clouds we have found star formation activity associated with interstellar medium at low column density, usually quiescent in other (more massive) star forming regions.