Early Planet Formation in Embedded Disks (eDisk). III. A First High-resolution View of Submillimeter Continuum and Molecular Line Emission toward the Class 0 Protostar L1527 IRS

Hoff, Merel L. R. van ’t; Tobin, John J.; Li, Zhi-Yun; Ohashi, Nagayoshi; Jørgensen, J. K.; Lin, Zhe-Yu Daniel; Aikawa, Yuri; Aso, Yusuke; Gregorio-Monsalvo, I. de; Gavino, Sacha; Han, Ilseung; Koch, Patrick M.; Kwon, Woojin; Lee, Chang-Won; Lee, Jeong Eun; Looney, Leslie W.; Narayanan, Suchitra; Plunkett, Adele; Sai, Jinshi; Santamaría-Miranda, Alejandro; Sharma, Rajeeb; Sheehan, Patrick; Takakuwa, Shigehisa; J., Thieme, Travis; Williams, Jonathan P.; Lai, Shih-Ping; Phuong, Nguyen Thị; Yen, Hsi-Wei

doi:10.3847/1538-4357/accf87

ApJ

2023

DOI: 10.3847/1538-4357/accf87

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Early Planet Formation in Embedded Disks (eDisk). III. A First High-resolution View of Submillimeter Continuum and Molecular Line Emission toward the Class 0 Protostar L1527 IRS

Merel L. R. van ’t Hoff

John J. Tobin

Zhi-Yun Li

et al.

Abstract: Studying the physical and chemical conditions of young embedded disks is crucial to constrain the initial conditions for planet formation. Here we present Atacama Large Millimeter/submillimeter Array observations of dust continuum at ∼0.″06 (8 au) resolution and molecular line emission at ∼0.″17 (24 au) resolution toward the Class 0 protostar L1527 IRS from the Large Program eDisk (Early Planet Formation in Embedded Disks). The continuum emission is smooth without substructures but asymmetric along both the ma… Show more

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Cited by 19 publications

References 92 publications

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Probing the eccentricity in protostellar discs: Modelling kinematics and morphologies

Ragusa,

Lynch,

Laibe

et al. 2024

A&A

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Protostellar discs are mostly modelled as circular structures of gas and dust orbiting a protostar. However, a number of physical mechanisms, for example, the presence of a (sub)stellar companion or initial axial asymmetry, can cause the gas and dust orbital motion to become eccentric. Theoretical studies have revealed that, when present, disc eccentricity is expected to occur with predictable profiles that can be long-lasting and potentially observable in protostellar systems. We construct an analytical model predicting the typical features of the kinematics and morphology of eccentric protostellar discs, with the final goal of characterising the observational appearance of eccentricity in discs. We validate the model using a numerical simulation of a circumbinary disc (where the binary makes the disc eccentric). We finally post-process the simulation with Monte Carlo radiative transfer to study how eccentric features would appear through the 'eyes' of ALMA. Besides the motion of the material on eccentric Keplerian orbits in the disc orbital plane, the most characteristic eccentric feature emerging from the analytical model is strong vertical motion with a typical anti-symmetric pattern (with respect to the disc line of pericentres). A circumbinary disc with a $ 40$ au eccentric cavity cav =0.2$), carved by an $a_ bin =15$ au binary, placed at a distance $d=130$ pc, is expected to host in its upper emission surface vertical oscillations up to $v_ z ms $ close to the cavity edge, that is to say, well within ALMA spectral and spatial resolution capabilities. A residual spiral pattern in the vertical velocity $ z ms $ of the simulation cannot be captured by the theoretical model, we speculate it to be possibly linked to the presence of a companion in the system.

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Probing the eccentricity in protostellar discs: Modelling kinematics and morphologies

Ragusa,

Lynch,

Laibe

et al. 2024

A&A

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Discs are born eccentric

Commerçon,

Lovascio,

Lynch

et al. 2024

A&A

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Recent observations have begun probing the early phases of disc formation, but little data yet exists on disc structure and morphology of Class 0 objects. Using simulations, we are able to lay out predictions of disc morphologies expected in future surveys of young discs. Based on detailed simulations of ab initio star formation by core collapse, we predict that early discs must be eccentric. In this letter, we study the morphology and, in particular, the eccentricity of discs formed in non-ideal magnetohydrodynamic (MHD) collapse simulations. We attempt to show that discs formed by cloud collapse are likely to be eccentric. We ran non-ideal MHD collapse simulations in the adaptive mesh refinement code RAMSES with radiative transfer. We used state-of-the-art analysis methods to measure the disc eccentricity. We find that despite no asymmetry in the initial conditions, the discs formed are eccentric, with eccentricities on the order of 0.1 These results may have important implications for protoplanetary disc dynamics and planet formation. The presence of eccentricity in young discs that is not seen at later stages of disc evolution is in tension with current viscous eccentricity damping models. This implies that there may be an as-yet undiscovered circularisation mechanism in circumstellar discs.

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Early Planet Formation in Embedded Disks (eDisk)

Santamaría-Miranda,

de Gregorio-Monsalvo,

Ohashi

et al. 2024

A&A

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We present the results of the observations made within the ALMA Large Program called Early Planet Formation in Embedded disks of the Class 0 protostar GSS30 IRS3. Our observations included the 1.3 mm continuum with a resolution of 0 (7.8 au) and several molecular species, including 12CO, 13CO, C18O $CO, and c-C$_ $H$_ $. The dust continuum analysis unveiled a disk-shaped structure with a major axis of sim 200 au. We observed an asymmetry in the minor axis of the continuum emission suggesting that the emission is optically thick and the disk is flared. On the other hand, we identified two prominent bumps along the major axis located at distances of 26 and 50 au from the central protostar. The origin of the bumps remains uncertain and might be an embedded substructure within the disk or the temperature distribution and not the surface density because the continuum emission is optically thick. The 12CO emission reveals a molecular outflow consisting of three distinct components: a collimated component, an intermediate-velocity component exhibiting an hourglass shape, and a wider angle low-velocity component. We associate these components with the coexistence of a jet and a disk wind. The C18O emission traces both a circumstellar disk in Keplerian rotation and the infall of the rotating envelope. We measured a stellar dynamical mass of 0.35pm 0.09 M$_ odot

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Early Planet Formation in Embedded Disks (eDisk). III. A First High-resolution View of Submillimeter Continuum and Molecular Line Emission toward the Class 0 Protostar L1527 IRS

Cited by 19 publications

References 92 publications

Probing the eccentricity in protostellar discs: Modelling kinematics and morphologies

Probing the eccentricity in protostellar discs: Modelling kinematics and morphologies

Discs are born eccentric

Early Planet Formation in Embedded Disks (eDisk)

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