Rubin-LSST

THE HOST GALAXIES OF MICRO-JANSKY RADIO SOURCES

The Astronomical Journal American Astronomical Society 150:3 (2015) 87

Authors:

KM Luchsinger, M Lacy, KM Jones, JC Mauduit, J Pforr, JA Surace, M Vaccari, D Farrah, E Gonzales-Solares, MJ Jarvis, C Maraston, L Marchetti, S Oliver, J Afonso, D Cappozi, A Sajina

The Measurement of the Anomalous Magnetic Moment of the Muon at Fermilab a)

Journal of Physical and Chemical Reference Data AIP Publishing 44:3 (2015) 031211

Authors:

I Logashenko, J Grange, P Winter, RM Carey, E Hazen, N Kinnaird, JP Miller, J Mott, BL Roberts, J Crnkovic, WM Morse, H Kamal Sayed, V Tishchenko, VP Druzhinin, YM Shatunov, R Bjorkquist, A Chapelain, N Eggert, A Frankenthal, L Gibbons, S Kim, A Mikhailichenko, Y Orlov, N Rider, D Rubin, D Sweigart, D Allspach, E Barzi, B Casey, ME Convery, B Drendel, H Freidsam, C Johnstone, J Johnstone, B Kiburg, I Kourbanis, AL Lyon, KW Merritt, JP Morgan, H Nguyen, J-F Ostiguy, A Para, CC Polly, M Popovic, E Ramberg, M Rominsky, AK Soha, D Still, T Walton, C Yoshikawa, K Jungmann, CJG Onderwater, P Debevec, S Leo, K Pitts, C Schlesier, A Anastasi, D Babusci, G Corradi, D Hampai, A Palladino, G Venanzoni, S Dabagov, C Ferrari, A Fioretti, C Gabbanini, R Di Stefano, S Marignetti, M Iacovacci, S Mastroianni, G Di Sciascio, D Moricciani, G Cantatore, M Karuza, K Giovanetti, V Baranov, V Duginov, N Khomutov, V Krylov, N Kuchinskiy, V Volnykh, M Gaisser, S Haciomeroglu, Y Kim, S Lee, M Lee, YK Semertzidis, E Won, R Fatemi, W Gohn, T Gorringe, T Bowcock, J Carroll, B King, S Maxfield, A Smith, T Teubner, M Whitley, M Wormald, A Wolski, S Al-Kilani, R Chislett, M Lancaster, E Motuk, T Stuttard, M Warren, D Flay, D Kawall, Z Meadows, M Syphers, D Tarazona, T Chupp, A Tewlsey-Booth, B Quinn, M Eads, A Epps, G Luo, M McEvoy, N Pohlman, M Shenk, A de Gouvea, L Welty-Rieger, H Schellman, B Abi, F Azfar, S Henry, F Gray, C Fu, X Ji, L Li, H Yang, D Stockinger, D Cauz, G Pauletta, L Santi, S Baessler, E Frlez, D Pocanic, LP Alonzi, M Fertl, A Fienberg, N Froemming, A Garcia, DW Hertzog, P Kammel, J Kaspar, R Osofsky, M Smith, E Swanson, K Lynch

The Red Radio Ring: a gravitationally lensed hyperluminous infrared radio galaxy at z = 2.553 discovered through the citizen science project Space Warps

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 452:1 (2015) 502-510

Authors:

JE Geach, A More, A Verma, PJ Marshall, N Jackson, P-E Belles, R Beswick, E Baeten, M Chavez, C Cornen, BE Cox, T Erben, NJ Erickson, S Garrington, PA Harrison, K Harrington, DH Hughes, RJ Ivison, C Jordan, Y-T Lin, A Leauthaud, C Lintott, S Lynn, A Kapadia, J-P Kneib, C Macmillan, M Makler, G Miller, A Montaña, R Mujica, T Muxlow, G Narayanan, DÓ Briain, T O'Brien, M Oguri, E Paget, M Parrish, NP Ross, E Rozo, CE Rusu, ES Rykoff, D Sanchez-Argüelles, R Simpson, C Snyder, FP Schloerb, M Tecza, W-H Wang, L Van Waerbeke, J Wilcox, M Viero, GW Wilson, MS Yun, M Zeballos

The initial mass functions of M31 and M32 through far red stellar absorption features

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 452:1 (2015) 597-606

Authors:

Simon Zieleniewski, Ryan CW Houghton, Niranjan Thatte, Roger L Davies

The link between accretion mode and environment in radio-loud active galaxies

Monthly Notices of the Royal Astronomical Society Oxford University Press 453:3 (2015) 2682-2706

Authors:

J Ineson, JH Croston, MJ Hardcastle, RP Kraft, DA Evans, Matthew Jarvis

Abstract:

The interactions between radio-loud AGN and their environments play an important role in galaxy and cluster evolution. Recent work has demonstrated fundamental differences between High and Low Excitation Radio Galaxies (HERGs and LERGs), and shown that they may have different relationships with their environments. In the Chandra Large Project ERA (Environments of Radio-loud AGN), we made the first systematic X-ray environmental study of the cluster environments of radio galaxies at a single epoch (z~0.5), and found tentative evidence for a correlation between radio luminosity and cluster X-ray luminosity. We also found that this relationship appeared to be driven by the LERG sub-population (Ineson et al. 2013). We have now repeated the analysis with a low redshift sample (z~0.1), and found strong correlations between radio luminosity and environment richness and between radio luminosity and central density for the LERGs but not for the HERGs. These results are consistent with models in which the HERGs are fuelled from accretion discs maintained from local reservoirs of gas, while LERGs are fuelled more directly by gas ingested from the intra-cluster medium. Comparing the samples, we found that although the maximum environment richness of the HERG environments is similar in both samples, there are poorer HERG environments in the z~0.1 sample than in the z~0.5 sample. We have therefore tentative evidence of evolution of the HERG environments. We found no differences between the LERG sub-samples for the two epochs, as would be expected if radio and cluster luminosity are related.