A near-infrared variability study in the cloud IC1396W: low star-forming efficiency and two new eclipsing binaries

TL;DR

This study uses near-infrared photometry and variability analysis to identify young stellar objects in IC1396W, revealing a low star-forming efficiency and discovering new eclipsing binaries and periodic variables.

Contribution

It demonstrates that combining colour-variability criteria with deep JHK photometry effectively constrains star formation activity in embedded regions.

Findings

IC1396W hosts no more than ten YSOs.

Star forming efficiency in IC1396W is approximately 1%.

Two new eclipsing binaries and eight periodic variables were discovered.

Abstract

Identifying the population of young stellar objects (YSOs) in high extinction regions is a prerequisite for studies of star formation. This task is not trivial, as reddened background objects can be indistinguishable from YSOs in near-infrared colour-colour diagrams. Here we combine deep JHK photometry with J- and K-band lightcurves, obtained with UKIRT/WFCAM, to explore the YSO population in the dark cloud IC1396W. We demonstrate that a colour-variability criterion can provide useful constraints on the star forming activity in embedded regions. For IC1396W we find that a near-infrared colour analysis alone vastly overestimates the number of YSOs. In total, the globule probably harbours not more than ten YSOs, among them a system of two young stars embedded in a small (~10000 AU) reflection nebula. This translates into a star forming efficiency SFE of ~1%, which is low compared with nearby more massive star forming regions, but similar to less massive globules. We confirm that IC1396W is likely associated with the IC1396 HII region. One possible explanation for the low SFE is the relatively large distance to the ionizing O-star in the central part of IC1396. Serendipitously, our variability campaign yields two new eclipsing binaries, and eight periodic variables, most of them with the characteristics of contact binaries.