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A dynamic database of molecular model spectra

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Presentation on theme: "A dynamic database of molecular model spectra"— Presentation transcript:

1 A dynamic database of molecular model spectra http://www.spectrafactory.net

2 Outline Motivation / introduction The model calculations The web interface Current status Some examples Future prospects & needs

3 Motivation We live in a molecular universe ! molecules detected in/around young stars, old stars, interstellar medium, planetary atmospheres, comets, entire galaxies, … Molecules are observed from UV to sub-mm wavelengths Important diagnostic tools & probes !!

4 Sensitive to temperature

5 Sensitive to density

6 Sensitive to exact species

7 Identification of species - Which one of those millions of molecules ? Extracting physical parameters Spectral dependence on physical parameters Model fit - Where to find frequencies & line strengths ? - Some knowledge of molecular spectroscopy - What band profile ? - Some knowledge of radiative transfer - All of the above, plus some statistics

8 In an ideal world… Observed Spectrum Black box Perfect FitPhysical/chemical parameters

9 Our aim Observed Spectrum Grey box Best FitEstimate of Physical/chemical parameters given limitations

10 Black boxGrey box All possible molecular speciesWhat’s available All possible transitionsWhat’s available Full non-LTE radiative transfer Isotherm, LTE Various geometriesSlab All possible instruments On request Robust statistics, fast Future

11 Molecular species molecules detected in space most in sub-mm 212 including isotopologues 143 42molecules studied in earth atmosphere line lists available at 296 K (HITRAN) often infrared 5molecules with good line lists H 2 O, TiO, SiO, CO, CO 2 Large frequency range Many levels (electronic, vibrational, rotational) High temperatures

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14 Model calculations I Line list :Frequencies of transition Intrinsic line strength at T ref Calculate line strength at desired T

15 Model calculations II Calculate optical depth Multiply line strength by column density Convolve with intrinsic line profile

16 Model calculations III Radiative transfer Assume LTE & slab How does this absorb radiation ?

17 Model calculations IV Instrument simulation Convolve with instrument spectral response

18 Current contents of database 42molecules (95 isotopologues) 25different temperatures (100 K – 2500 K) 9 column densities (10 16 – 10 24 cm -2 ) 5 Instrument presets 291,213model spectra (as of today) Model spectra added by user requests !

19 The web interface - architecture MySQL php DHTML Javascript Flash XML ServerClient http://www.spectrafactory.net/

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22 Needs & prospects More / better line lists Inaccurate line lists better than no line list Theoretical calculations and/or laboratory work Availability is only limit to our database ! Funding This project is 0% funded 143 molecules detected in space; many more will be detected in the next years Observatories Spitzer (now), soon SOFIA, Herschel, ALMA, …

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