a new interstellar model for high-temperature time-dependent kinetics nanase harada eric herbst the...
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A NEW INTERSTELLAR MODEL FOR A NEW INTERSTELLAR MODEL FOR HIGH-TEMPERATURE HIGH-TEMPERATURE
TIME-DEPENDENT KINETICSTIME-DEPENDENT KINETICS
Nanase HaradaNanase HaradaEric HerbstEric Herbst
The Ohio State UniversityThe Ohio State University
June 24, 2006International Symposium
on Molecular Spectroscopy
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Motivation
• Accretion disk around AGNs
• High-temperature
• High-density
• Radiation, cosmic-rays, etc….
Active galactic nucleus (AGN) :
Central region of a galaxy with very high luminosity, which is believed to be caused by a supermassive blackhole
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Chemical Abundance Calculation
• Thermodynamic equilibrium
– - High-temperature, high-density
– (ex. stellar atmosphere)
• Kinetics
– - Low-temperature, low-density (ex. cold dense cloud)
– Time-dependent
– Time-independent
∆
k=αexp(- Ea/kT)
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High-Temperature Kinetics Model
Addition and modification to the model:
• Reactions with high activation energy
• Endothermic reactions
• Temperature-dependence of H2 formation on dust grains
• Addition of reactions with H2O, NH3, etc
• Additional protonation reactions of ions
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Hydrogenation of C, N, O, and CNMore abundant H2O, NH3, CH4, and
HCN
O H2OOH CN HCN
Hydrogenation reactions with barriers: rate k = α exp(- Ea/kT)
Ea = 820 KEa = 3140 K Ea = 1040 K
H2
H2
H2
T = 100 K
T = 800 K
n = 104 cm-3
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Making Hydrocarbons
• Production of C2H2 (diagram by Agundez et al. 2008)
• C2H2 has been seen in protoplanetary disks (Carr and Najita 2008), and ultra-luminous infrared galaxies (ULIRGs) (Lahuis et al. 2007)
• Efficient production of carbon-chains by effective carbon-rich condition. ([C]/[O]>1)
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Making Hydrocarbons?
• Production of C2H2 (diagram by Agundez et al. 2008)
C3H
C4H
C5H
C2H
3
C3H
2
C4H
2
C5H
2
C3H
3
C4H
3
C5H
3
H2
C
C
H2
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Making Hydrocarbons?
T = 800 Kn = 104 cm-3
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Abundances of Positive Ions
• HCO+ + H2O → CO + H3O+
• H3O+ can take over the dominant form of ions
800 K
100 K
n = 104cm-3
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Application - AGN Accretion Disk
• <n> ~ 109(r/pc)-3cm-3
• T ~ 1000 (r/pc)-0.5 K
radio jet
molecular torus / disk
~ 100s pc
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Application - AGN Accretion Disk
• <n> ~ 109(r/pc)-3cm-3
• T ~ 1000 (r/pc)-0.5 K
radio jet
molecular torus / disk
~ 100s pc radiation (X-ray)
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Application - AGN Accretion Disk
• <n> ~ 109(r/pc)-3cm-3
• T ~ 1000 (r/pc)-0.5 K
radio jet
molecular torus / disk
~ 100s pc radiation (X-ray)
Star formation
→Supernovae→ Cosmic-ray
→ UV-photons
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Application - AGN Accretion Disk
• <n> ~ 109(r/pc)-3cm-3
• T ~ 1000 (r/pc)-0.5 K
radio jet
molecular torus / disk
~ 100s pc radiation (X-ray)
Star formation
→Supernovae→ Cosmic-ray
→ UV-photons
Shock
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AGN- Observation and
Theoretical ModelsObservations
• I(HCN)/I(CO) ~0.1-0.5, I(HCN)/I(HCO+) ≥ 2 (Kohno 2005)
• I(CN)/I(HCN)~0.6-2, I(HNC)/I(HCN)~0.5-0.7 (Aalto et al. 2006)
Models
• XDR and PDR Chemistry (Meijerink and Spaans 2005, Stäuber et al. 2005)
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AGN Chemistry – preliminary result
• Condition for r~3pc
• T = 600 K, n = 4x107 cm-3
• ζ = 1x10-17 s-1
•Condition for r~30pc
•T = 200 K, n = 4x104 cm-3
• ζ = 1x10-17 s-1
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Summary
• High abundance of H2O in high-temperature environment will change the entire chemistry, making it effectively C-rich.
• The inner midplane of an AGN disk may be affected by this high-temperature chemistry, leading to C2H2 and other carbon-chain abundances.
• In the inner AGN disk, lower CN/HCN and higher HCN/HCO+ abundance ratios, compared with the outer disk, are also expected.
• Advent of high resolution telescopes (ALMA, Herschel) will reveal the finer structure of the chemistry of the AGN disks.
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Acknowledgement
• Prof. Eric Herbst
• Prof. Todd Thompson
• Dr. Valentine Wakelam
• Dr. Guillaume Pineau des Forêts
Thank you!