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Radiative Transfer Modeling of EC 53: An Episodically Accreting Class I Young Stellar Object

Giseon Baek, Benjamin A. MacFarlane, Jeong‐Eun Lee, Dimitris Stamatellos, Gregory J. Herczeg, Doug Johnstone, Carlos Contreras Peña, W. P. Varricatt, K. W. Hodapp, Huei-Ru Vivien Chen, Sung-Ju Kang

2020The Astrophysical Journal32 citationsDOIOpen Access PDF

Abstract

Abstract In the episodic accretion scenario, a large fraction of the protostellar mass accretes during repeated and large bursts of accretion. Since outbursts on protostars are typically identified at specific wavelengths, interpreting these outbursts requires converting this change in flux to a change in total luminosity. The Class I young stellar object EC 53 in the Serpens Main cloud has undergone repeated increases in brightness at 850 μ m that are likely caused by bursts of accretion. In this study, we perform two- and three-dimensional continuum radiative transfer modeling to quantify the internal luminosity rise in EC 53 that corresponds to the factor of ∼1.5 enhancement in flux at 850 μ m. We model the spectral energy distribution and radial intensity profile in both the quiescent and outburst phases. The internal luminosity in the outburst phase is ∼3.3 times brighter than the luminosity in the quiescent phase. The radial intensity profile analysis demonstrates that the detected submillimeter flux variation of EC 53 comes from the heated envelope by the accretion burst. We also find that the role of external heating of the EC 53 envelope by the interstellar radiation field is insignificant.

Topics & Concepts

PhysicsAstrophysicsProtostarAccretion (finance)Radiative transferLuminosityYoung stellar objectSpectral energy distributionAstronomyFlux (metallurgy)BrightnessStarsStar formationGalaxyMetallurgyQuantum mechanicsMaterials scienceAstrophysics and Star Formation StudiesStellar, planetary, and galactic studiesMolecular Spectroscopy and Structure
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