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The ortho-H 2 abundance and the age of molecular clouds Laurent Pagani LERMA, UMR8112 du CNRS, Observatoire de Paris.

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Presentation on theme: "The ortho-H 2 abundance and the age of molecular clouds Laurent Pagani LERMA, UMR8112 du CNRS, Observatoire de Paris."— Presentation transcript:

1 The ortho-H 2 abundance and the age of molecular clouds Laurent Pagani LERMA, UMR8112 du CNRS, Observatoire de Paris

2 Low mass star formation Ortho-H 2 : –its role in deuteration control –formation and destruction Deuteration amplification needs CO depletion – a myth ? How old is a cold cloud ?

3 Low mass star formation

4 Prestellar cores form either slowly: –Turbulence dissipation (Nakano 1998) –Ambipolar diffusion (Mouschovias 1991, Ciolek & Basu 2000, 2006,...) or fast : –Supersonic turbulent flows -> local density enhancements (Klessen et al. 2000, Larson 2007, Hennebelle et al. 2007, 2008…) Low mass star formation

5 Ortho H 2 : deuteration control H 3 + + HD ➔ H 2 D + + H 2 + 232 K ??? pH 3 + + HD ➔ pH 2 D + + pH 2 + 232 K pH 3 + + HD ➔ oH 2 D + + pH 2 + 145 K pH 3 + + HD ➔ pH 2 D + + oH 2 + 62 K pH 3 + + HD ➔ oH 2 D + + oH 2 - 25 K etc. pH 2 D + + oH 2 ➔ oH 2 D + + pH 2 + 83 K ortho - H 2 > 1 % ⇔ no H 2 D + Pagani et al. 2009

6 ↪ no ortho-H 2 control ! ↪ allows deuteration in warm regions (Parise et al. 2009) … and in cold regions too! Ortho H 2 : deuteration control CH 3 + + HD ➔ CH 2 D + + pH 2 + 375 K CH 3 + + HD ➔ CH 2 D + + oH 2 + 205 K C 2 H 2 + + HD ➔ C 2 HD + + pH 2 + 550 K C 2 H 2 + + HD ➔ C 2 HD + + oH 2 + 380 K etc.

7 H 2 mostly fabricated on grains with o/p ratio = 3:1 ortho H 2 destroyed via : –oH 2 + H + ➔ pH 2 + H + (Honvault et al. 2011a, 2011b.) –oH 2 + H 3 + ➔ pH 2 + H 3 + (Hugo et al. 2009) Ortho H 2 : fabrication/destruction

8 Full chemical model OSU/Nahoon style + H 2 and H 3 + spin state chemistry ≤1.5 My !

9 Do we need CO depletion to deuterate ?  [CO] = 1-2 × 10 -4 & [HD] = 3 × 10 -5  H 3 + + CO ➔ HCO + + H 2 (main route)  H 3 + + HD ➔ H 2 D + + H 2 (minor route)  H 2 D + + CO ➔ HCO +, DCO + + H 2 ↪ [DCO + ] ≈ cst !!

10 Do we need CO depletion to deuterate ? Steady-state model

11 Do we need CO depletion to deuterate ? Yes, we need CO depletion in general …except for DCO + So, why the clouds are not full of DCO + ? But are they not ?

12 (Butner et al. 1995) CS 3-2 NH 3 (1,1) Do we need CO depletion to deuterate ?

13 So, no DCO + outside cold depleted cores Because ortho-H 2 prevents deuteration ? But ortho-H 2 eventually disappears So… clouds must be young (goslings ?) How old is a cold cloud ?

14  Deuteration model (Roueff et al. 2005)  + ortho/para spin state H chemistry (Hugo et al. 2009)  + DR rates (Pagani et al. 2009)  + corrections (CD + oH 2,…)  Undepleted  = 10 -17 s -1  metallicity = 3.4 × 10 -8  T kin = 10 K  n H = 2 × 10 4 cm -3  Detection limit : 0.1 K in 0.5 km/s (DCO + J:1-0)  Column density : 10 22 H 2 cm -2

15 How old is a cold cloud ? Dependence on Cosmic Ray Ionization rate

16 Conclusions Deuterium chemistry seems to say that prestellar cores and clouds are young : –clouds < 6-7 My (for normal CR rates and Metallicity) –clouds + prestellar core < 1.5 My (subm. A&A) Role of C-bearing Deuterium chemistry needs clarification Watson scheme is too simplistic : DCO + high Cosmic rays ionization rates impossible in dark clouds ? [e]

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