Early Planet Formation in Embedded Disks (eDisk). I. Overview of the Program and First Results

Author:

Ohashi NagayoshiORCID,Tobin John J.ORCID,Jørgensen Jes K.ORCID,Takakuwa ShigehisaORCID,Sheehan PatrickORCID,Aikawa YuriORCID,Li Zhi-YunORCID,Looney Leslie W.ORCID,Williams Jonathan P.ORCID,Aso YusukeORCID,Sharma RajeebORCID,Sai (Insa Choi) JinshiORCID,Yamato YoshihideORCID,Lee Jeong-EunORCID,Tomida KengoORCID,Yen Hsi-WeiORCID,Encalada Frankie J.ORCID,Flores ChristianORCID,Gavino SachaORCID,Kido MiyuORCID,Han IlseungORCID,Lin Zhe-Yu DanielORCID,Narayanan SuchitraORCID,Phuong Nguyen ThiORCID,Santamaría-Miranda AlejandroORCID,Thieme Travis J.ORCID,van ’t Hoff Merel L. R.ORCID,de Gregorio-Monsalvo ItziarORCID,Koch Patrick M.ORCID,Kwon WoojinORCID,Lai Shih-PingORCID,Lee Chang WonORCID,Plunkett AdeleORCID,Saigo KazuyaORCID,Hirano ShingoORCID,Lam Ka HoORCID,Mori ShojiORCID

Abstract

Abstract We present an overview of the Large Program, “Early Planet Formation in Embedded Disks (eDisk),” conducted with the Atacama Large Millimeter/submillimeter Array (ALMA). The ubiquitous detections of substructures, particularly rings and gaps, in protoplanetary disks around T Tauri stars raise the possibility that at least some planet formation may have already started during the embedded stages of star formation. In order to address exactly how and when planet formation is initiated, the program focuses on searching for substructures in disks around 12 Class 0 and 7 Class I protostars in nearby (<200 pc) star-forming regions through 1.3 mm continuum observations at a resolution of ∼7 au (0.″04). The initial results show that the continuum emission, mostly arising from dust disks around the sample protostars, has relatively few distinctive substructures, such as rings and spirals, in marked contrast to Class II disks. The dramatic difference may suggest that substructures quickly develop in disks when the systems evolve from protostars to Class II sources, or alternatively that high optical depth of the continuum emission could obscure internal structures. Kinematic information obtained through CO isotopologue lines and other lines reveals the presence of Keplerian disks around protostars, providing us with crucial physical parameters, in particular, the dynamical mass of the central protostars. We describe the background of the eDisk program, the sample selection and their ALMA observations, and the data reduction, and we also highlight representative first-look results.

Publisher

American Astronomical Society

Subject

Space and Planetary Science,Astronomy and Astrophysics

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