Galaxy formation and evolution

Resolving Star Formation on Sub-Kiloparsec Scales in the High-Redshift Galaxy SDP.11 Using Gravitational Lensing

ArXiv 1809.0963 (2018)

Authors:

C Lamarche, A Verma, A Vishwas, GJ Stacey, D Brisbin, C Ferkinhoff, T Nikola, SJU Higdon, J Higdon, M Tecza

Near infrared throughput and stray light measurements of diffraction gratings for ELT-HARMONI

Proceedings of SPIE Society of Photo-optical Instrumentation Engineers 10706 (2018)

Authors:

M Rodrigues, John Capone, F Clarke, A Earle, T Foster, J Lynn, K Obrien, M Tecza, NA Thatte, I Tosh, A Hidalgo Valadez, IJ Lewis

Galaxy orientation with the cosmic web across cosmic time

Monthly Notices of the Royal Astronomical Society Oxford University Press 481:4 (2018) 4753-4774

Authors:

S Codis, A Jindal, N Elisa Chisari, D Vibert, Y Dubois, C Pichon, Julien Devriendt

Abstract:

This work investigates the alignment of galactic spins with the cosmic web across cosmic time using the cosmological hydrodynamical simulation Horizon-AGN. The cosmic web structure is extracted via the persistent skeleton as implemented in the DISPERSE algorithm. It is found that the spin of low-mass galaxies is more likely to be aligned with the filaments of the cosmic web and to lie within the plane of the walls while more massive galaxies tend to have a spin perpendicular to the axis of the filaments and to the walls. The mass transition is detected with a significance of 9σ. This galactic alignment is consistent with the alignment of the spin of dark haloes found in pure dark matter simulations and with predictions from (anisotropic) tidal torque theory. However, unlike haloes, the alignment of low-mass galaxies is weak and disappears at low redshifts while the orthogonal spin orientation of massive galaxies is strong and increases with time, probably as a result of mergers. At fixed mass, alignments are correlated with galaxy morphology: the high-redshift alignment is dominated by spiral galaxies while elliptical centrals are mainly responsible for the perpendicular signal. The two regimes probed in this work induce competing galactic alignment signals for weak lensing, with opposite redshift and luminosity evolution. Understanding the details of these intrinsic alignments will be key to exploit future major cosmic shear surveys like Euclid or LSST.

The first sample of spectroscopically confirmed ultra-compact massive galaxies in the Kilo Degree Survey

Monthly Notices of the Royal Astronomical Society Oxford University Press 481:4 (2018) 4728-4752

Authors:

C Tortora, NR Napolitano, M Spavone, F La Barbera, G D'Ago, C Spiniello, Kh Kuijken, N Roy, MA Raj, S Cavuoti, M Brescia, G Longo, V Pota, Ce Petrillo, M Radovich, F Getman, LVE Koopmans, I Trujillo, G Verdoes Kleijn, M Capaccioli, A Grado, G Covone, D Scognamiglio, C Blake, K Glazebrook, S Joudaki, C Lidman, C Wolf

Abstract:

We present results from an ongoing investigation using the Kilo Degree Survey (KiDS) on the VLT Survey Telescope (VST) to provide a census of ultra-compact massive galaxies (UCMGs), defined as galaxies with stellar masses M* > 8 × 1010M⊙ and effective radii Re < 1.5 kpc. UCMGs, which are expected to have undergone very few merger events, provide a unique view on the accretion history of the most massive galaxies in the Universe. Over an effective sky area of nearly 330 deg2, we select UCMG candidates from KiDS multicolour images, which provide high quality structural parameters, photometric redshifts, and stellar masses. Our sample of ~1000 photometrically selected UCMGs at z < 0.5 represents the largest sample of UCMG candidates assembled to date over the largest sky area. In this paper, we present the first effort to obtain their redshifts using different facilities, starting with first results for 28 candidates with redshifts z < 0.5, obtained at NTT and TNG telescopes.We confirmed, as bona fide UCMGs, 19 out of the 28 candidates with new redshifts. A further 46 UCMG candidates are confirmed with literature spectroscopic redshifts (35 at z < 0.5), bringing the final cumulative sample of spectroscopically confirmed lower-z UCMGs to 54 galaxies, which is the largest sample at redshifts below 0.5. We use these spectroscopic redshifts to quantify systematic errors in our photometric selection, and use these to correct our UCMG number counts. We finally compare the results to independent data sets and simulations.

JINGLE, a JCMT legacy survey of dust and gas for galaxy evolution studies: I. Survey overview and first results

(2018)

Authors:

Amelie Saintonge, Christine D Wilson, Ting Xiao, Lihwai Lin, Ho Seong Hwang, Tomoka Tosaki, Martin Bureau, Phillip J Cigan, Christopher JR Clark, David L Clements, Ilse De Looze, Thavisha Dharmawardena, Yang Gao, Walter K Gear, Joshua Greenslade, Isabella Lamperti, Jong Chul Lee, Cheng Li, Michal J Michalowski, Angus Mok, Hsi-An Pan, Anne E Sansom, Mark Sargent, Matthew WL Smith, Thomas Williams, Chentao Yang, Ming Zhu, Gioacchino Accurso, Pauline Barmby, Nathan Bourne, Elias Brinks, Toby Brown, Aeree Chung, Eun Jung Chung, Anna Cibinel, Kristen Coppin, Jonathan Davies, Timothy A Davis, Steve Eales, Lapo Fanciullo, Taotao Fang, Yu Gao, David HW Glass, Haley L Gomez, Thomas Greve, Jinhua He, Luis C Ho, Feng Huang, Hyunjin Jeong, Xuejian Jiang, Qian Jiao, Francisca Kemper, Ji Hoon Kim, Minjin Kim, Taehyun Kim, Jongwan Ko, Xu Kong, Kevin Lacaille, Cedric G Lacey, Bumhyun Lee, Joon Hyeop Lee, Wing-Kit Lee, Karen Masters, Se-Heon Oh, Padelis Papadopoulos, Changbom Park, Sung-Joon Park, Harriet Parsons, Kate Rowlands, Peter Scicluna, Jillian M Scudder, Ramya Sethuram, Stephen Serjeant, Yali Shao, Yun-Kyeong Sheen, Yong Shi, Hyunjin Shim, Connor MA Smith, Kristine Spekkens, An-Li Tsai, Sheona Urquhart, Aprajita Verma, Giulio Violino, Serena Viti, David Wake, Junfeng Wang, Jan Wouterloot, Yujin Yang, Kijeong Yim, Fangting Yuan, Zheng Zheng