Variability in the Assembly of Protostellar Systems
Joel D. Green, Yao-Lun Yang, Tom Megeath, Doug Johnstone, John Tobin,, Sarah Sadavoy, Klaus Pontoppidan, Stella Offner, Neal J. Evans, Dan M., Watson, Jennifer Hatchell, Ian Stephens, Zhi-Yun Li, Jacob White, Robert A., Gutermuth, Will Fischer, Agata Karska, Jens Kauffmann

TL;DR
This paper emphasizes the importance of multi-wavelength, high-resolution observations to understand the variability in protostellar systems and its impact on star and planet formation.
Contribution
It highlights the need for advanced observational capabilities across IR, X-ray, and radio to study accretion variability and its effects on protostellar evolution.
Findings
Variability due to accretion bursts affects protostellar chemical and dynamical evolution.
Multi-wavelength campaigns can distinguish contributions from different protostellar substructures.
High spectral resolution observations are crucial for tracking accretion and outflow processes.
Abstract
Understanding the collapse of clouds and the formation of protoplanetary disks is essential to understanding the formation of stars and planets. Infall and accretion, the mass-aggregation processes that occur at envelope and disk scales, drive the dynamical evolution of protostars. While the observations of protostars at different stages constrain their evolutionary tracks, the impact of variability due to accretion bursts on dynamical and chemical evolution of the source is largely unknown. The lasting effects on protostellar envelopes and disks are tracked through multi-wavelength and time domain observational campaigns, requiring deep X-ray, infrared, and radio imaging and spectroscopy, at a sufficient level of spatial detail to distinguish contributions from the various substructures (i.e., envelope from disk from star from outflow). Protostellar models derived from these campaigns…
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Taxonomy
TopicsAstro and Planetary Science · Astrophysics and Star Formation Studies
