arxiv · archive / academic cred 4 · 2017-06-08 The Flying Saucer: Tomography of the thermal and density gas structure of an edge-on protoplanetary disk Hosted on danix · open direct · source page Determining the gas density and temperature structures of protoplanetary disks is a fundamental task to constrain planet formation theories. This is a challenging procedure and most determinations are based on model-dependent assumptions. We attempt a direct determination of the radial and vertical temperature structure of the Flying Saucer disk, thanks to its favorable inclination of 90 degrees. We present a method based on the tomographic study of an edge-on disk. Using ALMA, we observe at 0.5$"$ resolution the Flying Saucer in CO J=2-1 and CS J=5-4. This edge-on disk appears in silhouette against the CO J=2-1 emission from background molecular clouds in $ρ$ Oph. The combination of velocity gradients due to the Keplerian rotation of the disk and intensity variations in the CO background as a function of velocity provide a direct measure of the gas temperature as a function of radius and height above the disk mid-plane. The overall thermal structure is consistent with model predictions, with a cold ($< 15-12 $~K), CO-depleted mid-plane, and a warmer disk atmosphere. However, we find evidence for CO gas along the mid-plane beyond a radius of about 200\,au, coincident with a change of grain properties. Such a behavior is expected in case of efficient rise of UV penetration re-heating the disk and thus allowing CO thermal desorption or favoring direct CO photo-desorption. CO is also detected up to 3-4 scale heights while CS is confined around 1 scale height above the mid-plane. The limits of the method due to finite spatial and spectral resolutions are also discussed. This method appears to be very promising to determine the gas structure of planet-forming disks, provided that the molecular data have an angular resolution which is high enough, of the order of $0.3 - 0.1"$ at the distance of the nearest star forming regions. Tags craft: Disc / Saucer evidence: Document source: Academic Metadata (17) SourcearxivSource tier2 (archive / academic)Credibilitytier 4 / 5KinddocumentMIMEapplication/pdfSize2.03 MBAuthorA. Dutrey, S. Guilloteau, V. Piétu, E. Chapillon, V. Wakelam, E. Di Folco, T. Stoecklin, O. Denis-Alpizar, U. Gorti, R. Teague, T. Henning, D. Semenov, N. GrossoPublished2017-06-08LanguageenContent hasha577122fab55a820…First seen2026-05-10 08:52Last seen2026-05-10 23:35Source URLhttp://arxiv.org/abs/1706.02608v1Direct URLhttps://arxiv.org/pdf/1706.02608v1Mirror URL/file/01KR8HDTQCQ6F97FKSYYYT4F6G.pdf· queryall:"flying saucer"· pdfhttps://arxiv.org/pdf/1706.02608v1 Permalink: /item/01KR8HDTQCQ6F97FKSYYYT4F6G.html Related arxiv · archive / academic cred 4 51 The Flying Saucer edge-on disc's Near Infrared silhouette revealed by the JWST JEDIce program Edge-on discs offer a unique opportunity to probe radial and vertical dust and gas distributions in the protoplanetary phase. 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