Far-infrared Luminosity Bursts Trace Mass Accretion onto Protostars

Author:

Fischer William J.ORCID,Battersby CaraORCID,Johnstone DougORCID,Lee RachelORCID,Sewiło MartaORCID,Beuther HenrikORCID,Hasegawa YasuhiroORCID,Ginsburg AdamORCID,Pontoppidan KlausORCID

Abstract

Abstract Evidence abounds that young stellar objects undergo luminous bursts of intense accretion that are short compared to the time it takes to form a star. It remains unclear how much these events contribute to the main-sequence masses of the stars. We demonstrate the power of time-series far-infrared (far-IR) photometry to answer this question compared to similar observations at shorter and longer wavelengths. We start with model spectral energy distributions that have been fit to 86 Class 0 protostars in the Orion molecular clouds. The protostars sample a broad range of envelope densities, cavity geometries, and viewing angles. We then increase the luminosity of each model by factors of 10, 50, and 100 and assess how these luminosity increases manifest in the form of flux increases over wavelength ranges of interest. We find that the fractional change in the far-IR luminosity during a burst more closely traces the change in the accretion rate than photometric diagnostics at mid-infrared and submillimeter wavelengths. We also show that observations at far-IR and longer wavelengths reliably track accretion changes without confusion from large, variable circumstellar and interstellar extinction that plague studies at shorter wavelengths. We close by discussing the ability of a proposed far-IR surveyor for the 2030s to enable improvements in our understanding of the role of accretion bursts in mass assembly.

Funder

National Aeronautics and Space Administration

National Science Foundation

Publisher

American Astronomical Society

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