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The chemistry and stability of the protoplanetary disk surface

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Presentation on theme: "The chemistry and stability of the protoplanetary disk surface"— Presentation transcript:

1 The chemistry and stability of the protoplanetary disk surface
Inga Kamp In collaboration with: Kees Dullemond (MPA) Ewine van Dishoeck (Leiden) Bastiaan Jonkheid (Leiden) David Hardy, NASA

2 The chemistry and stability of the protoplanetary disk surface
Inga Kamp In collaboration with: Kees Dullemond (MPA) Ewine van Dishoeck (Leiden) Bastiaan Jonkheid (Leiden) David Hardy, NASA

3 Motivation ? Protoplanetary disk in Orion Debris disk

4 The basic model - disk masses: 10-4 - 0.01 M Sun
- elemental abundances: molecular cloud abundances - optical properties of dust grains: single 'mean' grain size - dust temperature: radiative equilibrium - gas-to-dust mass ratio: variable - UV radiation fields: interstellar radiation field, photospheric radiation field, photosphere+chromosphere

5 scaled solar chromosphere + IUE data + stellar atmosphere model
Vertical density structure in a flaring T Tauri disk z/r [Dullemond et al. 2002] log UV radiation field of a T Tauri star scaled solar chromosphere + IUE data + stellar atmosphere model CO, H2 photodissociation [Kamp & Sammar 2004]

6 The chemical structure
-8 Interface disk-remnant gas -4 t = 1 layer H2 is chemically destroyed by O in the hot regions H2 + O  OH + H OH + n  O + H 500 K 2000 K

7 The chemical structure
Interface disk-remnant gas t = 1 layer warm H2 present in disk surface layers (thermally excited, Tex~ few 100 K) warm surface contains observable molecules such as e.g. CO, CH, OH

8 The gas temperature Gas and dust couple well above
500 K 50 K 2000 K 100 K Gas and dust couple well above the superheated surface layer of the disk

9 The gas temperature  Gas and dust couple well above
the superheated surface layer of the disk

10 Evaporation of the surface
- Gas densities are high enough to couple H to the remaining species - Disk surface evaporates inside of ~50 AU  verify with fully self-consistent disk models

11 Outlook: Disk structure models
- self-consistent stationary disk models - comparison with observations by scanning through the disk with e.g. VISIR, IRAM, ALMA in the NIR to submm  feedback for the models

12 Outlook: Disk structure models
- self-consistent stationary disk models - comparison with observations by scanning through the disk with e.g. VISIR, IRAM, ALMA in the NIR to submm  feedback for the models

13 Outlook: Disk structure models
- self-consistent stationary disk models - comparison with observations by scanning through the disk with e.g. VISIR, IRAM, ALMA in the NIR to submm  feedback for the models - evaporation of the inner disk as a function of spectral-type of central star (include X-rays) - compile heating/cooling tables for hydrodynamical modeling

14 The End

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