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Molecules: Probes of the Interstellar Medium

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1 Molecules: Probes of the Interstellar Medium
ERIC HERBST DEPARTMENTS OF PHYSICS, CHEMISTRY, AND ASTRONOMY THE OHIO STATE UNIVERSITY

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9 MOLECULAR ROTATION “radio” emissions DE = hn

10 Atmospheric junk Learn: molecular concentrations, temperature, overall density, turbulent and thermal motions, rotation

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12 Dust particles contain 1% of interstellar matter.

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14 MOLECULAR VIBRATIONS Infrared absorption

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18 Rate Coefficients A + B  C + D k = < s v > = A(T) exp(-Ea/kBT)

19 Cosmic rays produce ions
some radical-stable reactions Cosmic rays produce ions

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22 Successes for quiescent cores:
Reproduces up to 80% of abundances including ions, radicals, isomers

23 (diffusion)

24 Some Star-forming Regions
quiescent cores (TMC-1; gas-grain) pre-stellar cores (L1544; gas-grain) low mass protostars (IRAS ) protoplanetary disks (DM Tau; gas + accret./desorp.) hot cores (Orion KL; gas-grain)

25 Protoplanetary Disk (Proplyd)
Column density Cosmic rays UV X-ray midplane UV 500 AU M0 T Tauri star – 106 yr old Keplerian rotation

26 Temperature and Density Distribution (D’Alessio et al. 1998, 1999)
A. MIDPLANE Radius (AU) n(cm-3) T (K) (14) (12) Heavy species condensed onto grains (9) (7)

27 Gaseous Molecular Abundances
● Molecular Line Survey at IRAM30m telescope (Dutrey et al. 1997) Abundance relative to H2 Species Disk(DMTau) Cloud(TMC1) CO × × 10 -5 HCN × × 10 -8 CN × × 10 -8 CS × × 10 -8 H2CO × × 10 -8 HCO × × 10 -9 C2H × × 10 -8 Gaseous molecular abundances in disks are different from those in clouds, typically lower, but these are averages in outer disk.

28 Details of Models Collaborators: Aikawa, van Dishoeck, van Zadelhof
Divide outer disk into elements of space; each with density and temperature. Do chemistry over 106 yr in each element. Collaborators: Aikawa, van Dishoeck, van Zedelhof

29 Vertical Distribution
R=105AU temperature density 70 60 50 40 30 20 T [K] 109 108 107 106 105 70 K 60 50 40 30 20 109 cm-3 108 107 106 105 R = 105 AU densiy [cm-3] photodissociation Z(AU) accretion Too detailed for observers Icy Layer Molecular Layer PDR

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