Tracking the Ice Mantle History in the Solar-type Protostars of NGC 1333 IRAS 4

Authors :: Marta De Simone
Cecilia Ceccarelli
Claudio Codella
Brian E. Svoboda
Claire J. Chandler
Mathilde Bouvier
Satoshi Yamamoto
Nami Sakai
Yao-Lun Yang
Paola Caselli
Bertrand Lefloch
Hauyu Baobab Liu
Ana López-Sepulcre
Laurent Loinard
Jaime E. Pineda
Leonardo Testi
Source :: The Astrophysical Journal Letters. 935:L14
Publication Year :: 2022
Publisher :: American Astronomical Society, 2022.
Abstract: To understand the origin of the diversity observed in exoplanetary systems, it is crucial to characterize the early stages of their formation, represented by Solar-type protostars. Likely, the gaseous chemical content of these objects directly depends on the composition of the dust grain mantles formed before the collapse. Directly retrieving the ice mantle composition is challenging, but it can be done indirectly by observing the major components, such as NH3 and CH3OH at cm wavelengths, once they are released into the gas-phase during the warm protostellar stage. We observed several CH3OH and NH3 lines toward three Class 0 protostars in NGC1333 (IRAS 4A1, IRAS 4A2, and IRAS 4B), at high angular resolution (1"; ~300 au) with the VLA interferometer at 24-26 GHz. Using a non-LTE LVG analysis, we derived a similar NH3/CH3OH abundance ratio in the three protostars (<br />accepted in ApJ Letters