FAUST. XIV. Probing the Flared Disk in L1527 with Sulfur-bearing Molecules

Author:

Zhang Ziwei E.,Sakai NamiORCID,Ohashi SatoshiORCID,Murillo Nadia M.,Chandler Claire J.ORCID,Svoboda BrianORCID,Ceccarelli CeciliaORCID,Codella ClaudioORCID,Cacciapuoti LucaORCID,O’Donoghue Ross,Viti SerenaORCID,Aikawa YuriORCID,Bianchi EleonoraORCID,Caselli PaolaORCID,Charnley StevenORCID,Hanawa TomoyukiORCID,Jímenez-Serra Izaskun,Liu Hauyu BaobabORCID,Loinard LaurentORCID,Oya YokoORCID,Podio LindaORCID,Sabatini GiovanniORCID,Vastel Charlotte,Yamamoto SatoshiORCID

Abstract

Abstract IRAS04368+2557 in L1527 is a Class 0/I protostar with a clear disk-envelope system revealed by previous Atacama Large Millimeter/submillimeter Array (ALMA) observations. In this paper, we discuss the flared structure of this source with observed sulfur-bearing molecules included in the FAUST ALMA large program. The analyses of molecular distributions and kinematics have shown that CS, SO, and OCS trace different regions of the disk-envelope system. To evaluate the temperature across the disk, we derive rotation temperature with the two observed SO lines. The temperature profile shows a clear, flared “butterfly” structure with the higher temperature being ∼50 K and the central lower temperature region (<30 K) coinciding with the continuum peak, suggesting dynamically originated heating rather than radiation heating from the central protostar. Other physical properties, including column densities, are also estimated and further used to demonstrate the vertical structure of the disk-envelope system. The “warped” disk structure of L1527 is confirmed with our analyses, showing that sulfur-bearing molecules are not only effective material probes but also sufficient for structural studies of protostellar systems.

Publisher

American Astronomical Society

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