Galaxy formation and evolution

Gas flow in barred potentials

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 449:3 (2015) 2421-2435

Authors:

Mattia C Sormani, James Binney, John Magorrian

A Sparse Gaussian Process Framework for Photometric Redshift Estimation

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP): Policy P - Oxford Open Option A (2015)

Authors:

IA Almosallam, SN Lindsay, MJ Jarvis, SJ Roberts

Abstract:

Accurate photometric redshifts are a lynchpin for many future experiments to pin down the cosmological model and for studies of galaxy evolution. In this study, a novel sparse regression framework for photometric redshift estimation is presented. Simulated and real data from SDSS DR12 were used to train and test the proposed models. We show that approaches which include careful data preparation and model design offer a significant improvement in comparison with several competing machine learning algorithms. Standard implementations of most regression algorithms have as the objective the minimization of the sum of squared errors. For redshift inference, however, this induces a bias in the posterior mean of the output distribution, which can be problematic. In this paper we directly target minimizing $\Delta z = (z_\textrm{s} - z_\textrm{p})/(1+z_\textrm{s})$ and address the bias problem via a distribution-based weighting scheme, incorporated as part of the optimization objective. The results are compared with other machine learning algorithms in the field such as Artificial Neural Networks (ANN), Gaussian Processes (GPs) and sparse GPs. The proposed framework reaches a mean absolute $\Delta z = 0.0026(1+z_\textrm{s})$, over the redshift range of $0 \le z_\textrm{s} \le 2$ on the simulated data, and $\Delta z = 0.0178(1+z_\textrm{s})$ over the entire redshift range on the SDSS DR12 survey, outperforming the standard ANNz used in the literature. We also investigate how the relative size of the training set affects the photometric redshift accuracy. We find that a training set of \textgreater 30 per cent of total sample size, provides little additional constraint on the photometric redshifts, and note that our GP formalism strongly outperforms ANNz in the sparse data regime for the simulated data set.

nIFTy Cosmology: Comparison of Galaxy Formation Models

(2015)

Authors:

Alexander Knebe, Frazer R Pearce, Peter A Thomas, Andrew Benson, Jeremy Blaizot, Richard Bower, Jorge Carretero, Francisco J Castander, Andrea Cattaneo, Sofia A Cora, Darren J Croton, Weiguang Cui, Daniel Cunnama, Gabriella De Lucia, Julien E Devriendt, Pascal J Elahi, Andreea Font, Fabio Fontanot, Juan Garcia-Bellido, Ignacio D Gargiulo, Violeta Gonzalez-Perez, John Helly, Bruno Henriques, Michaela Hirschmann, Jaehyun Lee, Gary A Mamon, Pierluigi Monaco, Julian Onions, Nelson D Padilla, Chris Power, Arnau Pujol, Ramin A Skibba, Rachel S Somerville, Chaichalit Srisawat, Cristian A Vega-Martinez, Sukyoung K Yi

The nuclear and extended infrared emission of the Seyfert galaxy NGC 2992 and the interacting system Arp 245

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 449:2 (2015) 1309-1326

Authors:

I García-Bernete, C Ramos Almeida, JA Acosta-Pulido, A Alonso-Herrero, M Sánchez-Portal, M Castillo, M Pereira-Santaella, P Esquej, O González-Martín, T Díaz-Santos, P Roche, S Fisher, M Pović, AM Pérez García, I Valtchanov, C Packham, NA Levenson

General spherical anisotropic Jeans models of stellar kinematics: including proper motions and radial velocities

(2015)

Abstract:

Cappellari (2008) presented a flexible and efficient method to model the stellar kinematics of anisotropic axisymmetric and spherical stellar systems. The spherical formalism could be used to model the line-of-sight velocity second moments allowing for essentially arbitrary radial variations in the anisotropy and general luminous and total density profiles. Here we generalize the spherical formalism by providing the expressions for all three components of the projected second moments, including the two proper motion components. A reference implementation is now included in the public JAM package available at http://purl.org/cappellari/software.