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Physical conditions of the interstellar medium of high-redshift, strongly lensed submillimetre galaxies from the Herschel-ATLAS

We present Herschel-SPIRE Fourier Transform Spectrometer (FTS) and radio follow-up observations of two Herschel-ATLAS (H-ATLAS) detected strongly lensed distant galaxies. In one of the targeted galaxies H-ATLAS J090311.6+003906 (SDP.81) we detect [OIII] 88\mum and [CII] 158\mum lines at a signal-to-noise ratio of ~5. We do not have any positive line identification in the other fainter target H-ATLAS J091305.0-005343 (SDP.130). Currently SDP.81 is the faintest sub-mm galaxy with positive line detections with the FTS, with continuum flux just below 200 mJy in the 200-600 \mum wavelength range. The derived redshift of SDP.81 from the two detections is z=3.043 +/-0.012, in agreement with ground-based CO measurements. This is the first detection by Herschel of the [OIII] 88\mum line in a galaxy at redshift higher than 0.05. Comparing the observed lines and line ratios with a grid of photo-dissociation region (PDR) models with different physical conditions, we derive the PDR cloud density n ~ 2000 cm^{-3} and the far-UV ionizing radiation field G_0 ~ 200 (in units of the Habing field -- the local Galactic interstellar radiation field of 1.6x10^{-6} W/m^2). Using the CO derived molecular mass and the PDR properties we estimate the effective radius of the emitting region to be 500-700 pc. These characteristics are typical for star-forming, high redshift galaxies. The radio observations indicate that SDP.81 deviates significantly from the local FIR/radio correlation, which hints that some fraction of the radio emission is coming from an AGN. The constraints on the source size from millimiter-wave observations put a very conservative upper limit of the possible AGN contribution to less than 33%. These indications, together with the high [OIII]/FIR ratio and the upper limit of [OI] 63\mum/[CII] 158\mum suggest that some fraction of the ionizing radiation is likely to originate from an AGN.

preprint2011arXivOpen access
Ivan ValtchanovJ. VirdeeR. J. IvisonB. SwinyardP. van der WerfD. RigopoulouE. da CunhaR. LupuD. J. BenfordD. RiechersIan SmailM. JarvisC. PearsonH. GomezR. HopwoodB. AltieriM. BirkinshawD. CoiaL. ConversiA. CoorayG. De ZottiL. DunneD. FrayerL. LeeuwA. MarstonM. NegrelloM. Sanchez PortalD. ScottM. A. ThompsonM. VaccariM. BaesD. ClementsM. J. MichalowskiH. DannerbauerS. SerjeantR. AuldS. ButtiglioneA. CavaA. DariushS. DyeS. EalesJ. FritzE. IbarS. MaddoxE. PascaleM. PohlenE. RigbyG. RodighieroD. J. B. SmithP. TemiJ. CarpenterA. BolattoM. GurwellJ. D. Vieira
astro-ph.CO
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Ivan ValtchanovJ. VirdeeR. J. IvisonB. SwinyardP. van der WerfD. RigopoulouE. da CunhaR. LupuD. J. BenfordD. RiechersIan SmailM. JarvisC. PearsonH. GomezR. HopwoodB. AltieriM. BirkinshawD. CoiaL. ConversiA. CoorayG. De ZottiL. DunneD. FrayerL. LeeuwA. MarstonM. NegrelloM. Sanchez PortalD. ScottM. A. ThompsonM. VaccariM. BaesD. ClementsM. J. MichalowskiH. DannerbauerS. SerjeantR. AuldS. ButtiglioneA. CavaA. DariushS. DyeS. EalesJ. FritzE. IbarS. MaddoxE. PascaleM. PohlenE. RigbyG. RodighieroD. J. B. SmithP. TemiJ. CarpenterA. BolattoM. GurwellJ. D. Vieira

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