ALMA Reveals the Anatomy of the mm-Sized Dust and Molecular Gas in the HD97048 Disk

Catherine Walsh, Attila Juhasz, Gwendolyn Meeus, William R. F. Dent, Luke T. Maud, Yuri Aikawa, Tom J. Millar, Hideko Nomura

Research output: Contribution to journalArticle

29 Citations (Scopus)
166 Downloads (Pure)

Abstract

Transitional disks show a lack of excess emission at infrared wavelengths due to a large dust cavity, that is often corroborated by spatially resolved observations at ∼ mm wavelengths. We present the first spatially resolved ∼ mm-wavelength images of the disk around the Herbig Ae/Be star, HD 97048. Scattered light images show that the disk extends to ≈640 au. ALMA data reveal a circular-symmetric dusty disk extending to ≈350 au, and a molecular disk traced in CO J = 3-2 emission, extending to ≈750 au. The CO emission arises from a flared layer with an opening angle ≈30°–40°. HD 97048 is another source for which the large (∼ mm-sized) dust grains are more centrally concentrated than the small (∼μm-sized) grains and molecular gas, likely due to radial drift. The images and visibility data modeling suggest a decrement in continuum emission within ≈50 au, consistent with the cavity size determined from mid-infrared imaging (34 ± 4 au). The extracted continuum intensity profiles show ring-like structures with peaks at ≈50, 150, and 300 au, with associated gaps at ≈100 and 250 au. This structure should be confirmed in higher-resolution images (FWHM ≈ 10–20 au). These data confirm the classification of HD 97048 as a transitional disk that also possesses multiple ring-like structures in the dust continuum emission. Additional data are required at multiple and well-separated frequencies to fully characterize the disk structure, and thereby constrain the mechanism(s) responsible for sculpting the HD 97048 disk
Original languageEnglish
Article number200
Number of pages15
JournalThe Astrophysical Journal
Volume831
Issue number2
DOIs
Publication statusPublished - 09 Nov 2016

ASJC Scopus subject areas

  • Physics and Astronomy(all)

Fingerprint Dive into the research topics of 'ALMA Reveals the Anatomy of the mm-Sized Dust and Molecular Gas in the HD97048 Disk'. Together they form a unique fingerprint.

  • Cite this

    Walsh, C., Juhasz, A., Meeus, G., R. F. Dent, W., Maud, L. T., Aikawa, Y., Millar, T. J., & Nomura, H. (2016). ALMA Reveals the Anatomy of the mm-Sized Dust and Molecular Gas in the HD97048 Disk. The Astrophysical Journal, 831(2), [200]. https://doi.org/10.3847/0004-637X/831/2/200