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Statistical Properties of Radio Galaxies in the local Universe

This study examines the properties of radio galaxies (RGs) hosted by massive galaxies in the local universe. The goals are to understand the formation mechanism of RGs, identify interesting objects for detailed study, and explore the relationship with the radio-quiet population. Using a large sample of galaxies, the study investigates the clustering and halo occupation distribution of RGs, as well as their spatial distribution in dense regions. The results shed light on the mechanisms driving the radio-loud AGN phenomenon and provide insights into the environment and properties of RGs.

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Statistical Properties of Radio Galaxies in the local Universe

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  1. Statistical Properties of Radio Galaxies in the local Universe Yen-Ting Lin Princeton University Pontificia Universidad Católica de Chile Yue Shen, Michael Strauss, Ragnhild Lunnan (Princeton), Zheng Zheng (IAS)

  2. outline • motivations • science goals • consensus of radio galaxies (RGs) hosted by massive galaxies in the local universe (z0.3) • formation mechanism of RGs • identification of interesting objects for detailed study • the sample • several statistics to look at • relationship with radio-quiet (RQ) population • dependence on the environment

  3. motivation: to make the bright end of the luminosity function right Croton et al (2006)

  4. credit: CXO Carlstrom et al (2002) motivation: SZ surveys are happening! Atacama Cosmology Telescope in construction see Lin et al (0805.1750) for estimation of effects of radio sources on SZ signal

  5. the sample • using NYU-VAGC DR6 LSS galaxy sample as parent sample, containing ~220,000 galaxies down to Mr–20.5 (about M*) • cross-matched with NVSS and FIRST surveys at 1.4 GHz to generate the largest radio galaxy catalog to date: 10,500 RGs stronger than 3mJy • improvements over previous studies • construction of several volume-limited subsamples • 90% of RGs have measured redshift • all RGs visually inspected to secure matches and measurement of fluxes • morphology information of radio sources • high S/N measurement of correlation functions • halo occupation distribution (HOD) modeling

  6. whole sample M-20.5 volume-limited M-21.5 volume-limited bivariate luminosity function

  7. 0.02z0.132 108,873 galaxies 2,253 RGs 2.1% of galaxies more luminous than M* have radio power logP23.12 fiber collision correction applied optical luminosity function

  8. correlation function • both galaxies and RGs are volume-limited and subject to same optical luminosity cut (Mr–21.5) • RGs (red) more strongly clustered than galaxies (blue) • clustering length comparable to groups of galaxies (~10h-1Mpc)

  9. correlation function: HOD modeling • consider NRG=NRG,cen+NRG,sat • NRG,cen=1 if(MMmin) • NRG,sat=(M/M1) • HOD modeling suggests RGs are hosted by halos more massive than 1013 Msun (consistent with lensing results from Mandelbaum et al 2008)

  10. RGs in massive halos: halo occupation number • count galaxies and RGs at Mr–20.5 in 134 X-ray clusters from ROSAT all-sky survey • number of galaxies goes as M0.8 • occupation number of RGs not a strong function of cluster mass • 1435 galaxies, 85 RGs (~6%) • 62/134 (=46%) clusters host RGs • among these, 34 have RL BCGs • 44 clusters host only 1 RG, 20 of these are BCG • 25% of BCGs are RL • 3.9% of non-BCG galaxies are RL • NOTE: 2.1% of galaxies are RL globally BCGs clusters w/o RGs

  11. RGs in massive halos: spatial distribution

  12. RGs in dense regions • excess number of neighbors • 1000 RGs, 1000 RQ galaxies matched to optical luminosity, apparent magnitude, and redshift • count nearby objects out to 2 Mpc from SDSS photometric catalog, within –23.5Mr–20.5 • within ~0.5 Mpc, RL galaxies always have higher number of neighbors than RQ ones Mpc

  13. RGs in dense regions caution: small number of SF galaxies in the sample! no RLAGN–SF galaxy pairs at scales<1Mpc!

  14. summary • observations: • given optical luminosity and color, RGs are more strongly clustered than the corresponding RQ galaxy sample • large scale clustering implies hosts are group or cluster-sized halos • RGs very centrally concentrated towards halo center • ingredients for RL AGN phenomenon • dense environment • presence of intracluster/intragroup gas: confining pressure • low level supply of gas: what’s the source? • work in progress • dissection of the bivariate LF • environment of high and low-excitation RL AGNs (e.g., FRI vs FRII) • relationship with X-ray and optical AGNs

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