The Accretion Process on Protostars
Eleonora Fiorellino, Alice Somigliana
TLDR
This paper reviews recent advancements in understanding protostellar accretion, integrating observational data with numerical models to provide a comprehensive assessment.
Key contributions
- Reviews major observational and numerical results on protostellar accretion.
- Integrates diverse approaches to provide a complete assessment of protostellar accretion.
- Analyzes various techniques for measuring accretion and their impact on parameter estimation.
- Identifies challenges in comparing observations with numerical models and suggests future research.
Why it matters
Understanding protostellar accretion is vital for determining stellar mass and planet formation. This paper fills a critical gap by reviewing recent observational and numerical findings, offering a complete assessment of this early, crucial phase. It helps consolidate fragmented knowledge.
Original Abstract
The process of mass accretion onto Young Stellar Objects (YSOs) plays a fundamental role in determining the final stellar mass and setting the initial conditions for planet formation. Despite its critical role, our understanding of accretion remains fragmented, particularly for what concerns the earliest, protostellar phases (Class 0/I). While the community has consolidated a comprehensive knowledge of the accretion process of the later-stage Classical T Tauri Stars (CTTSs), a similar level of understanding is critically lacking for the protostellar phase, where the bulk of the mass is assembled. This work aims to review recent major results, both from the observational and numerical point of view, bridging the gap between the two approaches and providing an updated, complete assessment of accretion in protostellar sources. We present different techniques to measure accretion on protostars, analyze how methodological differences affect parameter estimation, discuss the caveats in comparing with numerical models, and suggest the next steps to take towards an ever more exhaustive picture of the protostellar phase.
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