Dr Aprajita Verma

Large sSynoptic Survey Telescope Galaxies Science Roadmap

(2017)

Authors:

BE Robertson, M Banerji, MC Cooper, Roger Davies, SP Driver, Ferguson, HC Ferguson, E Gawiser, S Kaviraj, JH Knapen, Chris Lintott, J Lotz, JA Newman, DJ Norman, N Padilla, SJ Schmidt, GP Smith, JA Tyson, Aprajita Verma, I Zehavi, L Armus, C Avestruz, LF Barrientos, Rebecca AA Bowler, MN Bremer, CJ Conselice, J Davies, R Demarco, ME Dickinson, G Galaz, A Grazian, BW Holwerda, Matthew Jarvis, V Kasliwal, I Lacerna, J Loveday, P Marshall, E Merlin, NR Napolitano, TH Puzia, A Robotham, S Salim, M Sereno, GF Snyder, JP Stott, PB Tissera, N Werner, P Yoachim, KD Borne

Abstract:

The Large Synoptic Survey Telescope (LSST) will enable revolutionary studies of galaxies, dark matter, and black holes over cosmic time. The LSST Galaxies Science Collaboration has identified a host of preparatory research tasks required to leverage fully the LSST dataset for extragalactic science beyond the study of dark energy. This Galaxies Science Roadmap provides a brief introduction to critical extragalactic science to be conducted ahead of LSST operations, and a detailed list of preparatory science tasks including the motivation, activities, and deliverables associated with each. The Galaxies Science Roadmap will serve as a guiding document for researchers interested in conducting extragalactic science in anticipation of the forthcoming LSST era.

The interstellar medium in high-redshift submillimeter galaxies as probed by infrared spectroscopy

Astrophysical Journal IOP Publishing 837:12 (2017)

Authors:

JL Wardlow, A Cooray, W Osage, N Bourne, D Clements, H Dannerbauer, L Dunne, S Dye, S Eales, D Farrah, C Furlanetto, E Ibar, R Ivison, S Maddox, MM Michałowski, D Riechers, Dimitra Rigopoulou, D Scott, MWL Smith, L Wang, PVD Werf, E Valiante, I Valtchanov, Aprajita Verma

Abstract:

Submillimeter galaxies (SMGs) at $z\gtrsim1$ are luminous in the far-infrared and have star-formation rates, SFR, of hundreds to thousands of solar masses per year. However, it is unclear whether they are true analogs of local ULIRGs or whether the mode of their star formation is more similar to that in local disk galaxies. We target these questions by using Herschel-PACS to examine the conditions in the interstellar medium (ISM) in far-infrared luminous SMGs at z~1-4. We present 70-160 micron photometry and spectroscopy of the [OIV]26 micron, [FeII]26 micron, [SIII]33 micron, [SiII]34 micron, [OIII]52 micron, [NIII]57 micron, and [OI]63 micron fine-structure lines and the S(0) and S(1) hydrogen rotational lines in 13 lensed SMGs identified by their brightness in early Herschel data. Most of the 13 targets are not individually spectroscopically detected and we instead focus on stacking these spectra with observations of an additional 32 SMGs from the \herschel\ archive -- representing a complete compilation of PACS spectroscopy of SMGs. We detect [OI]63 micron, [SiII]34 micron, and [NIII]57 micron at >3sigma in the stacked spectra, determining that the average strengths of these lines relative to the far-IR continuum are $(0.36\pm0.12)\times10^{-3}$, $(0.84\pm0.17)\times10^{-3}$, and $(0.27\pm0.10)\times10^{-3}$, respectively. Using the [OIII]52/[NIII]57 emission line ratio we show that SMGs have average gas-phase metallicities $\gtrsim Z_{\rm sun}$. By using PDR modelling and combining the new spectral measurements with integrated far-infrared fluxes and existing [CII]158 micron data we show that SMGs have average gas densities, n, of $\sim10^{1-3}{\rm cm^{-3}}$ and FUV field strengths, $G_0\sim10^{2.2-4.5}$ (in Habing units: $1.6\times10^{-3}{\rm erg~cm^{-2}~s^{-1}}$), consistent with both local ULIRGs and lower luminosity star-forming galaxies.

Evidence that the AGN dominates the radio emission in z ~ 1 radio-quiet quasars

Monthly Notices of the Royal Astronomical Society Oxford University Press 468:1 (2017) 217-238

Authors:

SV White, Matthew Jarvis, E Kalfountzou, MJ Hardcastle, A Verma, JM Cao Orjales, J Stevens

Abstract:

In order to understand the role of radio-quiet quasars (RQQs) in galaxy evolution, we must determine the relative levels of accretion and star-formation activity within these objects. Previous work at low radio flux densities has shown that accretion makes a significant contribution to the total radio emission, in contrast with other quasar studies that suggest star formation dominates. To investigate, we use 70 RQQs from the Spitzer-Herschel Active Galaxy Survey. These quasars are all at z ∼ 1, thereby minimizing evolutionary effects, and have been selected to span a factor of ∼100 in optical luminosity, so that the luminosity dependence of their properties can be studied. We have imaged the sample using the Karl G. Jansky Very Large Array (JVLA), whose high sensitivity results in 35 RQQs being detected above 2σ. This radio data set is combined with far-infrared luminosities derived from grey-body fitting to Herschel photometry. By exploiting the far-infrared-radio correlation observed for star-forming galaxies, and comparing two independent estimates of the star-formation rate, we show that star formation alone is not sufficient to explain the total radio emission. Considering RQQs above a 2σ detection level in both the radio and the far-infrared, 92 per cent are accretion dominated, and the accretion process accounts for 80 per cent of the radio luminosity when summed across the objects. The radio emission connected with accretion appears to be correlated with the optical luminosity of the RQQ, whilst a weaker luminosity dependence is evident for the radio emission connected with star formation.

The WEAVE-LOFAR survey

Proceedings SF2A 2016 - Scientific highlights Société Francaise d’Astronomie et d’Astrophysique (SF2A) (2016) 271-280

Authors:

DJB Smith, PN Best, KJ Duncan, NA Hatch, Matthew J Jarvis, HJA Röttgering, CJ Simpson, JP Stott, RK Cochrane, KE Coppin, H Dannerbauer, TA Davis, JE Geach, Catherine L Hale, MJ Hardcastle, PW Hatfield, RCW Houghton, N Maddox, SL McGee, L Morabito, D Nisbet, M Pandey-Pommier, I Prandoni, A Saxena, TW Shimwell, M Tarr, IV Bemmel, Aprajita Verma, GJ White, WL Williams

Abstract:

In these proceedings we highlight the primary scientific goals and design of the WEAVE-LOFAR survey, which will use the new WEAVE spectrograph on the 4.2m William Herschel Telescope to provide the primary source of spectroscopic information for the LOFAR Surveys Key Science Project. Beginning in 2018, WEAVE-LOFAR will generate more than 10$^6$ R=5000 365-960 nm spectra of low-frequency selected radio sources, across three tiers designed to efficiently sample the redshift-luminosity plane, and produce a data set of enormous legacy value. The radio frequency selection, combined with the high multiplex and throughput of the WEAVE spectrograph, make obtaining redshifts in this way very efficient, and we expect that the redshift success rate will approach 100 per cent at $z < 1$. This unprecedented spectroscopic sample - which will be complemented by an integral field component - will be transformational in key areas, including studying the star formation history of the Universe, the role of accretion and AGN-driven feedback, properties of the epoch of reionisation, cosmology, cluster haloes and relics, as well as the nature of radio galaxies and protoclusters. Each topic will be addressed in unprecedented detail, and with the most reliable source classifications and redshift information in existence.

ALMA OBSERVATIONS OF Ly alpha BLOB 1: HALO SUBSTRUCTURE ILLUMINATED FROM WITHIN

ASTROPHYSICAL JOURNAL 832:1 (2016) ARTN 37

Authors:

JE Geach, D Narayanan, Y Matsuda, M Hayes, L Mas-Ribas, M Dijkstra, CC Steidel, SC Chapman, R Feldmann, A Avison, O Agertz, Y Ao, M Birkinshaw, MN Bremer, DL Clements, H Dannerbauer, D Farrah, CM Harrison, M Kubo, MJ Michalowski, D Scott, DJB Smith, M Spaans, JM Simpson, AM Swinbank, Y Taniguchi, P van der Werf, A Verma, T Yamada