The KMOS Cluster Survey (KCS). III. Fundamental plane of cluster galaxies at z ≃ 1.80 in JKCS 041

Astrophysical Journal Institute of Physics 850:2 (2017) 203

Authors:

Laura J Prichard, Roger L Davies, A Beifiori, JCC Chan, Michele Cappellari, Ryan CW Houghton, JT Mendel, R Bender, A Galametz, RP Saglia, JP Stott, DJ Wilman, Ian J Lewis, R Sharples, M Wegner

Abstract:

We present data for 16 galaxies in the overdensity JKCS 041 at z ≃ 1.80 as part of the K-band Multi-Object Spectrograph (KMOS) Cluster Survey (KCS). With 20 hr integrations, we have obtained deep absorption-line spectra from which we derived velocity dispersions for seven quiescent galaxies. We combined photometric parameters derived from Hubble Space Telescope images with the dispersions to construct a fundamental plane (FP) for quiescent galaxies in JKCS 041. From the zero-point evolution of the FP, we derived a formation redshift for the galaxies of z form = 3.0 ± 0.3, corresponding to a mean age of 1.4 ± 0.2 Gyr. We tested the effect of structural and velocity dispersion evolution on our FP zero-point and found a negligible contribution when using dynamical mass-normalized parameters (∼3%) but a significant contribution from stellar-mass-normalized parameters (∼42%). From the relative velocities of the galaxies, we probed the 3D structure of these 16 confirmed members of JKCS 041 and found that a group of galaxies in the southwest of the overdensity had systematically higher velocities. We derived ages for the galaxies in the different groups from the FP. We found that the eastextending group had typically older galaxies (2.1 +0.3 0.2 Gyr) than those in the southwest group (0.3 ± 0.2 Gyr). Although based on small numbers, the overdensity dynamics, morphology, and age results could indicate that JKCS 041 is in formation and may comprise two merging groups of galaxies. This result could link large-scale structure to ages of galaxies for the first time at this redshift.

Lensing galaxies in the CFHT Legacy Survey

World Scientific Publishing (2017) 2997-3002

Authors:

Massimo Bianchi, Robert T Jantzen, Remo Ruffini, Rafael Küng, Prasenjit Saha, Jonathan Coles, Ignacio Ferreras, Phil Marshall, Anupreeta More, Surhud More, Aprajita Verma, Elisabeth Baeten, Claude Cornen, Christine Macmillan, Julianne K Wilcox

Models of gravitational lens candidates from Space Warps CFHTLS

(2017)

Authors:

Rafael Küng, Prasenjit Saha, Ignacio Ferreras, Elisabeth Baeten, Jonathan Coles, Claude Cornen, Christine Macmillan, Phil Marshall, Anupreeta More, Lucy Oswald, Aprajita Verma, Julianne K Wilcox

Self-consistent Bulge/Disk/Halo Galaxy Dynamical Modeling Using Integral Field Kinematics

ASTROPHYSICAL JOURNAL 850:1 (2017) ARTN 70

Authors:

DS Taranu, D Obreschkow, JJ Dubinski, LMR Fogarty, J van de Sande, B Catinella, L Cortese, A Moffett, ASG Robotham, JT Allen, J Bland-Hawthorn, JJ Bryant, M Colless, SM Croom, F D'Eugenio, RL Davies, MJ Drinkwater, SP Driver, M Goodwin, IS Konstantopoulos, JS Lawrence, AR Lopez-Sanchez, NPF Lorente, AM Medling, JR Mould, MS Owers, C Power, SN Richards, C Tonini

CASTAway: An asteroid main belt tour and survey.

Advances in Space Research Elsevier 62:8 (2017) 1998-2025

Authors:

Neil E Bowles, C Snodgrass, JP Sanchez, Jessica A Arnold, P Eccleston, T Andert, A Probst, G Naletto, AC Vandaele, de de Leon, A Nathues, IR Thomas, N Thomas, L Jorda, V da Deppo, H Haack, SF Green, B Carry, Kerri L Donaldson Hanna, J Leif Jorgensen, A Kereszturi, FE DeMeo, JK Davies, Fraser Clarke, K Kinch, A Guilbert-Lepoutre, J Agarwal, AS Rivkin, P Pravec, S Fornasier, M Gravnik, RH Jones, N Murdoch, KH Joy, Matthias Tecza, Jennifer M Barnes, J Licandro, BT Greenhagen, Simon B Calcutt, Charlotte M Marriner, Tristram J Warren, I Tosh

Abstract:

CASTAway is a mission concept to explore our Solar System’s main asteroid belt. Asteroids and comets provide a window into the formation and evolution of our Solar System and the composition of these objects can be inferred from space-based remote sensing using spectroscopic techniques. Variations in composition across the asteroid populations provide a tracer for the dynamical evolution of the Solar System. The mission combines a long-range (point source) telescopic survey of over 10,000 objects, targeted close encounters with 10 – 20 asteroids and serendipitous searches to constrain the distribution of smaller (e.g. 10 m) size objects into a single concept. With a carefully targeted trajectory that loops through the asteroid belt, CASTAway would provide a comprehensive survey of the main belt at multiple scales. The scientific payload comprises a 50 cm diameter telescope that includes an integrated low-resolution (R = 30 – 100) spectrometer and visible context imager, a thermal (e.g. 6 – 16 μm) imager for use during the flybys, and modified star tracker cameras to detect small (~10 m) asteroids. The CASTAway spacecraft and payload have high levels of technology readiness and are designed to fit within the programmatic and cost caps for a European Space Agency medium class mission, whilst delivering a significant increase in knowledge of our Solar System.