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1. Salt-bearing Disk Candidates around High-mass Young Stellar Objects

   https://doi.org/10.3847/1538-4357/ac9f4a  

   Ginsburg, Adam; McGuire, Brett A.; Sanhueza, Patricio; Olguin, Fernando; Maud, Luke T.; Tanaka, Kei E.; Zhang, Yichen; Beuther, Henrik; Indriolo, Nick (January 2023, The Astrophysical Journal)

   Abstract Molecular lines tracing the orbital motion of gas in a well-defined disk are valuable tools for inferring both the properties of the disk and the star it surrounds. Lines that arise only from a disk, and not also from the surrounding molecular cloud core that birthed the star or from the outflow it drives, are rare. Several such emission lines have recently been discovered in one example case, those from NaCl and KCl salt molecules. We studied a sample of 23 candidate high-mass young stellar objects (HMYSOs) in 17 high-mass star-forming regions to determine how frequently emission from these species is detected. We present five new detections of water, NaCl, KCl, PN, and SiS from the innermost regions around the objects, bringing the total number of known briny disk candidates to nine. Their kinematic structure is generally disk-like, though we are unable to determine whether they arise from a disk or outflow in the sources with new detections. We demonstrate that these species are spatially coincident in a few resolved cases and show that they are generally detected together, suggesting a common origin or excitation mechanism. We also show that several disks around HMYSOs clearly do not exhibit emission in these species. Salty disks are therefore neither particularly rare in high-mass disks, nor are they ubiquitous. 

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2. 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

   https://doi.org/10.3847/1538-4357/accf87  

   van ’t Hoff, Merel L. R.; Tobin, John J.; Li, Zhi-Yun; Ohashi, Nagayoshi; Jørgensen, Jes K.; Lin, Zhe-Yu Daniel; Aikawa, Yuri; Aso, Yusuke; de Gregorio-Monsalvo, Itziar; Gavino, Sacha; et al (June 2023, The Astrophysical Journal)

   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 major and minor axes of the disk as previously observed. The detected lines of¹²CO,¹³CO, C¹⁸O, H₂CO, c-C₃H₂, SO, SiO, and DCN trace different components of the protostellar system, with a disk wind potentially visible in¹²CO. The¹³CO brightness temperature and the H₂CO line ratio confirm that the disk is too warm for CO freezeout, with the snowline located at ∼350 au in the envelope. Both molecules show potential evidence of a temperature increase around the disk–envelope interface. SO seems to originate predominantly in UV-irradiated regions such as the disk surface and the outflow cavity walls rather than at the disk–envelope interface as previously suggested. Finally, the continuum asymmetry along the minor axis is consistent with the inclination derived from the large-scale (100″ or 14,000 au) outflow, but opposite to that based on the molecular jet and envelope emission, suggesting a misalignment in the system. Overall, these results highlight the importance of observing multiple molecular species in multiple transitions to characterize the physical and chemical environment of young disks. 

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3. Disks and Outflows in the Intermediate-mass Star-forming Region NGC 2071 IR

   https://doi.org/10.3847/1538-4357/ac7464  

   Cheng, Yu; Tobin, John J.; Yang, Yao-Lun; van ’t Hoff, Merel L. R.; Sadavoy, Sarah I.; Osorio, Mayra; Díaz-Rodríguez, Ana Karla; Anglada, Guillem; Karnath, Nicole; Sheehan, Patrick D.; et al (July 2022, The Astrophysical Journal)

   Abstract We present Atacama Large Millimeter Array band 6/7 (1.3 mm/0.87 mm) and Very Large Array Ka-band (9 mm) observations toward NGC 2071 IR, an intermediate-mass star-forming region. We characterize the continuum and associated molecular line emission toward the most luminous protostars, i.e., IRS1 and IRS3, on ∼100 au (0.″2) scales. IRS1 is partly resolved in the millimeter and centimeter continuum, which shows a potential disk. IRS3 has a well-resolved disk appearance in the millimeter continuum and is further resolved into a close binary system separated by ∼40 au at 9 mm. Both sources exhibit clear velocity gradients across their disk major axes in multiple spectral lines including C¹⁸O, H₂CO, SO, SO₂, and complex organic molecules like CH₃OH,¹³CH₃OH, and CH₃OCHO. We use an analytic method to fit the Keplerian rotation of the disks and give constraints on physical parameters with a Markov Chain Monte Carlo routine. The IRS3 binary system is estimated to have a total mass of 1.4–1.5M_⊙. IRS1 has a central mass of 3–5M_⊙based on both kinematic modeling and its spectral energy distribution, assuming that it is dominated by a single protostar. For both IRS1 and IRS3, the inferred ejection directions from different tracers, including radio jet, water maser, molecular outflow, and H₂emission, are not always consistent, and for IRS1 these can be misaligned by ∼50°. IRS3 is better explained by a single precessing jet. A similar mechanism may be present in IRS1 as well but an unresolved multiple system in IRS1 is also possible. 

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4. [C ii] Spectral Mapping of the Galactic Wind and Starbursting Disk of M82 with SOFIA

   https://doi.org/10.3847/1538-4357/acff6e  

   Levy, Rebecca C.; Bolatto, Alberto D.; Tarantino, Elizabeth; Leroy, Adam K.; Armus, Lee; Emig, Kimberly L.; Herrera-Camus, Rodrigo; Marrone, Daniel P.; Mills, Elisabeth; Ricken, Oliver; et al (November 2023, The Astrophysical Journal)

   Abstract M82 is an archetypal starburst galaxy in the local Universe. The central burst of star formation, thought to be triggered by M82's interaction with other members in the M81 group, is driving a multiphase galaxy-scale wind away from the plane of the disk that has been studied across the electromagnetic spectrum. Here, we present new velocity-resolved observations of the [Cii] 158μm line in the central disk and the southern outflow of M82 using the upGREAT instrument on board SOFIA. We also report the first detections of velocity-resolved (ΔV= 10 km s⁻¹) [Cii] emission in the outflow of M82 at projected distances of ≈1–2 kpc south of the galaxy center. We compare the [Cii] line profiles to observations of CO and Hiand find that likely the majority (>55%) of the [Cii] emission in the outflow is associated with the neutral atomic medium. We find that the fraction of [Cii] actually outflowing from M82 is small compared to the bulk gas outside the midplane (which may be in a halo or tidal streamers), which has important implications for observations of [Cii] outflows at higher redshift. Finally, by comparing the observed ratio of the [Cii] and CO intensities to models of photodissociation regions, we estimate that the far-ultraviolet (FUV) radiation field in the disk is ∼10^3.5G₀, in agreement with previous estimates. In the outflow, however, the FUV radiation field is 2–3 orders of magnitudes lower, which may explain the high fraction of [Cii] arising from the neutral medium in the wind. 

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5. Early Planet Formation in Embedded Disks (eDisk). IX. High-resolution ALMA Observations of the Class 0 Protostar R CrA IRS5N and Its Surroundings

   https://doi.org/10.3847/1538-4357/ace35c  

   Sharma, Rajeeb; Jørgensen, Jes K; Gavino, Sacha; Ohashi, Nagayoshi; Tobin, John J; Lin, Zhe-Yu Daniel; Li, Zhi-Yun; Takakuwa, Shigehisa; Lee, Chang Won; Sai_Insa_Choi, Jinshi; et al (August 2023, The Astrophysical Journal)

   Abstract We present high-resolution high-sensitivity observations of the Class 0 protostar RCrA IRS5N as part of the Atacama Large Milimeter/submilimeter Array large program Early Planet Formation in Embedded Disks. The 1.3 mm continuum emission reveals a flattened continuum structure around IRS5N, consistent with a protostellar disk in the early phases of evolution. The continuum emission appears smooth and shows no substructures. However, a brightness asymmetry is observed along the minor axis of the disk, suggesting that the disk is optically and geometrically thick. We estimate the disk mass to be between 0.007 and 0.02M_⊙. Furthermore, molecular emission has been detected from various species, including C¹⁸O (2–1),¹²CO (2–1),¹³CO (2–1), and H₂CO (3_0,3− 2_0,2, 3_2,1− 2_2,0, and 3_2,2− 2_2,1). By conducting a position–velocity analysis of the C¹⁸O (2–1) emission, we find that the disk of IRS5N exhibits characteristics consistent with Keplerian rotation around a central protostar with a mass of approximately 0.3M_⊙. Additionally, we observe dust continuum emission from the nearby binary source IRS5a/b. The emission in¹²CO toward IRS5a/b seems to emanate from IRS5b and flow into IRS5a, suggesting material transport between their mutual orbits. The lack of a detected outflow and large-scale negatives in¹²CO observed toward IRS5N suggests that much of the flux from IRS5N is being resolved out. Using a 1D radiative transfer model, we infer the mass of the envelope surrounding IRS5N to be ∼1.2M_⊙. Due to this substantial surrounding envelope, the central IRS5N protostar is expected to be significantly more massive in the future. 

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