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Www.g-vo.org Spectral Analysis in the VO Thomas Rauch, Iliya Nickelt and the GAVO and AstroGrid-D Teams.

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Presentation on theme: "Www.g-vo.org Spectral Analysis in the VO Thomas Rauch, Iliya Nickelt and the GAVO and AstroGrid-D Teams."— Presentation transcript:

1 www.g-vo.org Spectral Analysis in the VO Thomas Rauch, Iliya Nickelt and the GAVO and AstroGrid-D Teams

2 www.g-vo.org Spectral Energy Distributions for Hot Stars Multi-Wavelength Astronomy & Virtual Observatory The nebular information indicates that the spectrum of the star deviates considerably from a blackbody. Author in 2008!

3 www.g-vo.org Multi-Wavelength Astronomy & Virtual Observatory they still use black bodies to simulate ionizing fluxes of hot stars …

4 www.g-vo.org Stellar Spectra vs Black Body II Multi-Wavelength Astronomy & Virtual Observatory

5 www.g-vo.org NLTE Model Atmospheres all stars with spectral type B or earlier regarded as a domain of specialists high computational times atomic data Multi-Wavelength Astronomy & Virtual Observatory C IV doublet “optical” RBB 5  6, 6  8 C III singlet + triplet

6 www.g-vo.org GAVO II Project provide access to spectral energy distributions (SEDs) at three levels: –fast and easy unexperienced user, no detailed knowledge about the model-atmosphere code necessary –individual interested user, detailed analysis of special objects –experienced define own model atoms, comparison of codes, etc. Multi-Wavelength Astronomy & Virtual Observatory

7 www.g-vo.org VO Service TheoSSA based on the Tübingen NLTE Model Atmosphere Package TMAP, the GAVO Service TheoSSA providesTMAPGAVOTheoSSA –Spectral Energy Distributions (SEDs) TheoSSA (http://vo.ari.uni-heidelberg.de/ssatr-0.01/TrSpectra.jsp?)http://vo.ari.uni-heidelberg.de/ssatr-0.01/TrSpectra.jsp? –Simulation Software TMAW ( http://astro.uni-tuebingen.de/~TMAW/TMAW.shtml ) http://astro.uni-tuebingen.de/~TMAW/TMAW.shtml –Atomic Data TMAD (http://astro.uni-tuebingen.de/~rauch/TMAD/TMAD.html)http://astro.uni-tuebingen.de/~rauch/TMAD/TMAD.html Multi-Wavelength Astronomy & Virtual Observatory

8 www.g-vo.org Way to Reality in the 21 st Century –use SED grids ready to use, interpolation –calculate individual model atmospheres T eff, log g, mass fraction {X i }, i  (H, He, C, N, O) –standard model atoms –create own atomic-data files, i  (H - Ni), and calculate model atmospheres and SEDs Multi-Wavelength Astronomy & Virtual Observatory

9 www.g-vo.org Multi-Wavelength Astronomy & Virtual Observatory

10 www.g-vo.org TheoSSA – Model SEDs on Demand IAAT database Teff, log g, {Xi} models atomic data file frequency grid GAVO database Teff, log g, {Xi} SEDs 5 - 2000Å 2000 - 3000Å 3000 - 55000Å

11 www.g-vo.org TheoSSA Data Base growing in time –newly calculated SEDs are automatically ingested –meta data at ARI (Heidelberg) –SEDs etc. at IAAT (Tübingen) Multi-Wavelength Astronomy & Virtual Observatory

12 www.g-vo.org Calculation of SEDs cpu time increases with number of considered elements –1 H+He+C+N+O model ≈ 1 day on a fast PC –IAAT cluster: 4 models parallel calculation of SED grids –compute resources of AstroGrid-DAstroGrid-D Multi-Wavelength Astronomy & Virtual Observatory

13 www.g-vo.org Why use a Grid? scales according to demand –1, 10, or 100 cores available at any time higher reliability middleware offers additional options –job monitoring, statistics, error handling TMAP is easy to compute –no interprocess-communication –no complex compilation, all libraries present Multi-Wavelength Astronomy & Virtual Observatory

14 www.g-vo.org Technical Details AstroGrid-D uses the Globus Toolkit middleware (GT4) compute resources are retrieved from the MDS (monitoring and discovery service) the job is submitted using a JSDL template (Job Submission Description Language) data transfer uses gsiftp, the job staging process is based on GT4 web services (globusrun-ws) all written in a two-page shell script Multi-Wavelength Astronomy & Virtual Observatory

15 www.g-vo.org Task Farming with Globus GAVO service Database Web Interface Multi-Wavelength Astronomy & Virtual Observatory model input executable JSDL template list of resources (nodes available) Job submission host output

16 www.g-vo.org In Progress analysis of ionized nebulae –MOCASSIN: 3D photoionization code (Barbara Ercolano, UCL) “wind models” –HotBlast: expanding stellar atmospheres (Lars Koesterke, TACC) automated spectral analysis (IAAT, ?) Multi-Wavelength Astronomy & Virtual Observatory

17 www.g-vo.org Conclusions SEDs of hot compact stars are available in the VO – use them! Multi-Wavelength Astronomy & Virtual Observatory

18 www.g-vo.org Multi-Wavelength Astronomy & Virtual Observatory

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