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Astrochemistry University of Helsinki, December 2006 Lecture 4 T J Millar, School of Mathematics and Physics Queen’s University Belfast,Belfast BT7 1NN,

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Presentation on theme: "Astrochemistry University of Helsinki, December 2006 Lecture 4 T J Millar, School of Mathematics and Physics Queen’s University Belfast,Belfast BT7 1NN,"— Presentation transcript:

1 Astrochemistry University of Helsinki, December 2006 Lecture 4 T J Millar, School of Mathematics and Physics Queen’s University Belfast,Belfast BT7 1NN, Northern Ireland

2 Stellar Evolution

3 Chemical Structure of AGB CSE

4 Photochemistry in CSEs Destruction of Parents by IS UV Radiation Field Self-Shielding H 2 – very reactive, daughter (H atoms) unreactive CO – very unreactive, daughters (C, C + ) very reactive Cosmic ray ionisation f(H 3 + ) varies as r 2 N(H 3 + ) ~ 10 12 cm -2 for CRI rate of 10 -17 s -1, an order of magnitude less than that detected in the interstellar medium Photodissociation and photoionisation Acetylene is the species which determines the complexity of the hydrocarbon chemistry

5 Photochemistry in CSEs Shell distributions – the photodestruction of acetylene IRC+10216 Acetylene has a relatively large photoionisation cross-section Ions and radicals form in outer CSE where both density and UV field are relatively large (Millar, Herbst & Bettens 2000)

6 Hydrocarbon formation Shell distributions – rapid formation of hydrocarbons IRC+10216 C 2 H and C 2 H 2 + are both very reactive with acetylene and derivative species Peak abundances occur at slightly larger radii as size increases Degradation of grains may give inverse behaviour (Millar, Herbst & Bettens 2000)

7 Cyanopolyyne formation Shell distributions – rapid formation of hydrocarbons IRC+10216 Neutral chemistry important in forming cyanopolyynes and other molecules (Millar, Herbst & Bettens 2000) (Guelin et al. 2000)

8 Photochemistry in CSEs Shell distributions – the creation of anions IRC+10216 Formation by electron attachment. Destruction by photodetachment, collisions with cations Anion/Neutral ratios ~ 0.01- 0.1

9 Metal species in IRC+10216 LTE calculations predict metal halides (Tsuji) NaCl, KCl, AlCl, AlF – observed centrally peaked, spatial scales few arcsec fractional abundance (AlF, AlCl/H2) ~ 1e-7 for 5 arcsec source (Highberger et al 2001, Guelin et al. 1997) – large fraction of metal NOT in dust MgCN, MgNC, AlNC, SiCN, SiNC – shell distribution, spatial scales ~15 arcsec

10 Metal compound formation MgNC formation – N(MgNC) ~ 2e13 cm-2 ~observed IRC+10216 Are outer shell species formed in shock chemistry and transported outward, or by photochemistry ? MgNC formed by radiative association of Mg+ with cyanopolyynes (Dunbar & Petrie 2002)

11 Anions in Dark Clouds TMC-1 Formation by electron attachment. Destruction by collisions with cations Anion/Neutral ~ 0.01-0.1

12 Anions in PDRs Horsehead Nebula Formation by electron attachment. Destruction by photons and by collisions with cations Anion/neutral ratio ~0.1

13 Enhancement Factors The electron fraction can be probed by observation of DCO + /HCO + and N 2 D + /N 2 H +

14 Enhancement Factors – Depleted Cores

15 Electron Fraction f(e) ~ 10 -7 – 10 -8 in dark clouds

16 IRAS 16293-2422 OCS 9-8 13 CS 5-4 N 2 D + 3-2D 2 CO 5-4

17 The Future Herschel Space Observatory 3.5m, 80-670 microns, launch 2008, 3 year lifetime ALMA– 64 12m radio telescopes at 5000m altitude in Atacama Desert, Chile

18 Dust, Gas and Chemistry in Space Belfast, January 4-5 2007 Astrophysical Chemistry Group (Royal Society of Chemistry/Royal Astronomical Society) Invited Speakers: Eric Herbst (OSU) Liv Hornekaer (Aarhus) Martin McCoustra (Heriot-Watt) Klaus Pontoppidan (Caltech) Student travel bursaries available Web-site: www.astrochemistry.org.uk

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