Abstract
The results of a spectroscopic survey of H alpha emission line stars associated with fourteen bright rimmed clouds are presented. Slit-less optical spectroscopy was carried out with the Inter University Centre for Astronomy and Astrophysics (IUCAA) 2m telescope and IUCAA Faint Object Spectrograph and Camera (IFOSC). H alpha emission line was detected from 173 objects. Among them 85 objects have a strong H alpha emission line with its equivalent width larger than 10 A. Those are classical T Tauri stars. 52 objects have a weak H alpha emission line with its equivalent width less than 10 A and do not show intrinsic near-infrared excess. Those are weak-line T Tauri stars. On the other hand, 36 objects have a weak H alpha emission line (<10 A), although they show intrinsic near-infrared excess. Such objects are not common in low-mass star forming regions. Those are misfits of the general concept on formation process of a low-mass star, in which it evolves from a classical T Tauri star to a weak-line T Tauri star. Those might be weak-line T Tauri stars with a flared disk in which gas is heated by ultraviolet radiation from a nearby early-type star. Alternatively, we propose pre-transitional disk objects as their evolutional stage.
Highlights
A T Tauri star (TTS) is a low-mass star in the pre-main sequence stage
weak-line TTSs (WTTSs) show the Hα emission line, but its equivalent width is less than 10 Å. [2] investigated near-infrared colors of TTSs in the Taurus molecular cloud
Among the emission line stars, 77 objects are plotted redward of the border. We identified that such objects have the intrinsic near-infrared excess
Summary
A T Tauri star (TTS) is a low-mass star in the pre-main sequence stage. [2] investigated near-infrared colors of TTSs in the Taurus molecular cloud. They estimated the amount of the interstellar extinction from E ( R − I ) color and calculated the dereddened colors of the TTSs. They estimated the amount of the interstellar extinction from E ( R − I ) color and calculated the dereddened colors of the TTSs They noted that the WTTSs have the dereddened colors similar to those of normal main sequence stars. The dereddened colors of CTTSs occupy a narrow range in a ( J − H ) − ( H − K )
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
