Simulated [CII] 158 µm observations for SPICA / SAFARI F. Levrier P. Hennebelle, E. Falgarone, M. Gerin (LERMA - ENS) F. Le Petit (LUTH - Observatoire.

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Simulated [CII] 158 µm observations for SPICA / SAFARI F. Levrier P. Hennebelle, E. Falgarone, M. Gerin (LERMA - ENS) F. Le Petit (LUTH - Observatoire de Paris) J. R. Goicoechea (CAB) SPICA Workshop, University of Oxford, 6-8 July 2009

Why the [CII] 158 µm line ? Fine structure of the ground state of C+ UV to IR energy transfer via photoelectric effect UV electrons dust IR Continuum gas Cooling lines Carbon ionization potential : 11.3 eV One of the dominant cooling lines of interstellar gas Early stages of star formation 0.3% of the bolometric FIR emission of the Galaxy (Wright et al. 91) Seen “everywhere”

Observations of the [CII] 158 µm line Nakagawa et al. 98 (BICE) Makiuti et al (FILM / IRTS) Bennett et al. 94 (COBE / FIRAS)

Proposed objective and method Estimate the ability of SAFARI to map the [CII] emission over large areas MHD turbulence simulation ISM structures PDR code on selected LOS UV radiative transfer and chemical network HI contentCII emissionHI content CII emission Mapping speed

Compressible MHD turbulence simulations Hennebelle et al pc RAMSES code (Teysier 2002, Fromang et al. 2006) Adaptive Mesh Refinement with up to 14 levels Converging flows of warm (10,000 K) atomic gas Periodic boundary conditions on remaining 4 sides Includes magnetic field, atomic cooling and self-gravity consistently Covers scales 0.05 pc - 50 pc Heavy computation : ~30,000 CPU hours ; 10 to 100 GB X-Y column densityX-Y density cutX-Y temperature cut cold clumps warm turbulent interclump medium

Line of sight Total gas column density Density structures along the LOS

Total gas column density Savage et al. 77 Total column density Molecular fraction Total gas and HI column densities HI gas column density

The Meudon PDR code UV UV Molecular region C+CCOC+CCO Stationary 1D model, including : Outputs : UV radiative transfer: UV radiative transfer: Absorption in molecular lines Absorption in the continuum (dust) 10000’s of lines Chemistry : Chemistry : Several hundred chemical species Network of sevral thousand chemical reactions Photoionization Statistical equilibrium of level populations Statistical equilibrium of level populations Radiative and collisional excitations and de-excitations Photodissociation Thermal balance: Thermal balance: Photoelectric effect Chemistry Cosmic rays Atomic and molecular cooling Local quantities : Local quantities : Abundance and excitation of species Temperature of gas and duts Detailed heating and cooling rates Energy density Gas and grain temperatures Chemical reaction rates Integrated quantities on the line of sight : Integrated quantities on the line of sight : Species column densities Line intensities Absorption of the radiation field Spectra J. Le Bourlot F. Le Petit E. Roueff M. Gonzalez-Garcia J. R. Goicoechea P. Hily-Blant S. Guilloteau C. Joblin G. Pineau des Forêts [...]

Local emissivity of the [CII] line Integrated emissivity of the [CII] line HI column density Simulation results (See Bennett et al. 94)

Number of lines of sight SAFARI mapping speed Say the cloud is 1.75 kpc away, 1.6º across Pixel size is 5.75” (ie that of the SAFARI FPA pixels) FPA is 20x20 (FOV=2’x2’) 2600 pointings needing between 1 and 24 seconds Total mapping time : 4.5 hours 2’ 5-sigma, 1-hour sensitivity :

Conclusions Heavy computations : a few hours per “clump” Convergence issues in low density regions Geometry issue : requires 2D/3D PDR code SAFARI will be able to map the [CII] emission over large areas in a short time STAR FORMAT (Astronet) Simulation results databases : Simulation results databases : MHD simulations Dense cores PDR calculations Code interplay and publication : Code interplay and publication : MHD codes (RAMSES, FLASH) Meudon PDR code Radiative transfer code (PHOENIX) Observational diagnostics : Observational diagnostics : Statistical analysis tools Instrumental simulations (ALMA) Hennebelle Klessen Banerjee Dullemond Falgarone Glover Hauschildt Le Bourlot Le Petit Lesaffre Levrier First approach towards integrating MHD and PDR codes Grid computationCode development Interaction with observers