Formation of interstellar anionsidmc2011/presentation/CT22.pdf · Formation of interstellar anions...
Transcript of Formation of interstellar anionsidmc2011/presentation/CT22.pdf · Formation of interstellar anions...
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Formation of interstellar anions
M.L.Senent Departamento de Química y Física Teóricas
Instituto de Estructura de la Materia, IEM-CSIC Madrid, SPAIN
IUCAA, Pune November 2011
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Predictions and discovery
• The presence of anions in astrophysical sources was first considered by Dalgarno and McCray, in 1973
• In 1981, Herbst predicted anion formation in dense clouds from radicals of more than four atoms.
• On the base of large stabilities of charged linear chains, the existence of negative species in the ISM was also predicted theoretically by Rosmus, who determined many spectroscopic properties
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Discovery
• The actual interest for anions is recent coming from the discovery of C6H- by McCarthy et al., in 2006
• This detection has been crucial and has generated the search of other anions and laboratory studies.
• Actually, 6 anions are discovered: C4H-, C6H-,
C8H-, and CN- , C3N- , and C5N-.
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C2H-?? IRC+10216 (1 single line!)
“A parallel search for the small anion C2H− remains inconclusive, despite the previous tentative identification of the J = 1−0 rotational transition. The abundance of C2H− in IRC +10216 is found to be vanishingly small, <0.0014% relative to C2H” (Agúndez et al, 2010)
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Estimated astrophysical abundances depend on: a) molecular stabilities and spectroscopic properties b) radiative and collisional excitation parameters c) reaction probabilities a) b) and C) → ab initio studies
C2-, C4
-, C6-
C2H-, C4H-, C6H-
Carbon chains anions
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Structure and spectroscopy
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Masso, Hochlaf, Senent, Rosmus , JCP (2006) Senent Hochlaf ApJ (2010)
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Masso Senent JPCA(2009)
Hammoutene Senent Hochlaf (In prep)
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Senent et Hochlaf, Apj (2010)
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Non-reactive collisions
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Transition probability
Collisional probabilities and rates Radiative probabilities
Einstein coefficients
Intensities and band shapes
Cross sections and rates
Excitation and de-excitation rate
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Ab initio calculations of collisional cross sections s
Van-der Walls Surface
Molecule + H2 (or He)
Fit
4 6 8 10 12
-5000
0
5000
10000
15000
SO = 0
SO = 45
SO = 75
SO = 90
SO = 135
= 0 ; = 0
Inte
ract
ion
en
erg
y (
cm-1
)
R (A)
Close Coupling Equations CC
(Coupled States CS,
Infinite Order Sudden IOS)
s K j →i K i →j
Collision packages MOLSCAT
HIBRIDON
MOLCOL
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C2H ( or C2H
- )+ He (T Geom = cte )
PES (Coordinates: R and θ MOLPRO 2006 Method: RCCSD(T)/CASSCF/RHF (C2H) and RCCSD(T)/RHF (C2H-) Basis set: aug-cc-pVQZ) +midbond functions (Cybulski and Toczylowski) (placed at mid-distance between the C2H (or C2H-) center of mass and He) Geometries: 684 (C2H) and 1254 (C2H-)
GRID: (C2H) R(4-25bohr), θ=10º ; (C2H-) R(4.25-40bohr), θ=10º BSSE (Boys and Bernardi, 1970); FIT: Werner et al. 1989 Minimum: (C2H) E=-25.5 cm-1 ,R=8.0 ,θ=180º ; (C2H-) E=-37.8 cm-1 , R=7.9, θ=72.3º
C2H(X2Σ+) C2H-(X1Σ+)
Geometry: rigid body model (in bohr) C2H: rCC =2.299, rCH = 1.968 C2H-: rCC =2.361, rCH = 2.023
He
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C2H : HIBRIDON modified for hyperfine structure (Alexander theory 1982) State-to-state cross sections between the 25 first rotational levels (up to 800 cm-1, T=100K) C2H−: MOLSCAT: Full close coupling approach (CC ), State-to-state cross sections between the 13 first rotational levels (up to 100 cm-1, T=100K) Rotational parameters: C2H : B0=1.456825 cm−1, D0 = 3.589 10−6 cm−1 , γ0= -002089678 cm-1
C2H−: B0=1.3889354 cm−1, D0 = 3.2345 10−6 cm−1
The energy range was spanned to take into consideration the presence of resonances Data available in LAMBDA and BASECOL
SCATTERING CALCULATIONS
C2H ( or C2H
- )+ He (T Geom = cte )
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RATES (Propensity rules) C2H(X2Σ+) +He , C2H-(X1Σ+) +He
Both systems Rates ↑ if ΔN is even (Why? Near homonuclear symmetry) C2H: Rates ↑ if ΔJ=ΔN and if ΔF=ΔJ; not proportional to the degeneracy 2F+1 Both systems: Rates for ΔN=2 ↑ if N ↑ The depth wells for both species are of the same order of magnitude (-37.8 cm−1 for C2H−-He and –25.5 cm−1 for C2H-He)
J=N+S F=|J+I|…..|J-I|)
C2H-(X1Σ+) +He rates = 10 x C2H(X2Σ+) +He rates
= 10 x
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Formation processes
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CARBON CHAINS ANIONS: FORMATION AND DESTRUCTION Anions can be produced via a variety of mechanisms
(dependence on n)
Cn- +H CnH-
CnH- CnH + e-
Cn + e- Cn
-
……………………….
CnH- Cn-m + CmH-
CnH2
+ e- CnH- + H n ↑exoT n ↓ endoT
CnH2 + H- CnH- + H2
………………………. etc
Cn- +H2
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Senent Hochlaf ApJ (2010)
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C2- +H
C2H- C2- +H
MRCI+Q
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C4H
C4- +H
C4- +H
MRCI+Q
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C6- +H CASSCF
C6H C6- +H
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CO-AUTHORS R.Dominguez Gómez and N.Inostroza Departamento de Química y Física Teóricas Instituto de Estructura de la Materia , IEM-CSIC, Madrid, Spain M. Hochlaf Université Paris-Est, Laboratoire de Modélisation et Simulation Multi Echelle, MSME FRE 3160 CNRS, 5 boulevard Descartes, 77454 Marne-la-Vallée, France D. Hammoutene Université des Sciences et Technologie Houari Boumediene, Argel F.Lique and F. Dumouchel Laboratoire d’Ondes et Milieu Complexe, FRE 3102, 25 Rue Ph Lebon 76600 Le Havre, France A.Spielfiedel , N. Feautrier, F. Dayou LERMA et UMR 8112, CNRS- Observatoire de Paris-Meudon, 5 Place Jules Janssen, 92195 Meudon Cedex, France F. Najar and D. Ben Abdallah Laboratoire de Spectroscopie atomique, moleculaire et Application, Faculteé des Sciences-Universiteé Tunis el Manar, Tunis 1060-Tunise