Your search keyword '"Stothert, Lee"' showing total 6 results

1. Correcting for Fibre Assignment Incompleteness in the DESI Bright Galaxy Survey

Author

Smith, Alex, He, Jian-hua, Cole, Shaun, Stothert, Lee, Norberg, Peder, Baugh, Carlton, Bianchi, Davide, Wilson, Michael J., Brooks, David, Forero-Romero, Jaime E., Moustakas, John, Percival, Will J., Tarle, Gregory, and Wechsler, Risa H.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

The Dark Energy Spectroscopic Instrument (DESI) Bright Galaxy Survey (BGS) will be a survey of bright, low redshift galaxies, which is planned to cover an area of ~14,000 sq deg in 3 passes. Each pass will cover the survey area with ~2000 pointings, each of area ~8 sq deg. The BGS is currently proposed to consist of a bright high priority sample to an r-band magnitude limit r ~ 19.5, with a fainter low priority sample to r ~ 20. The geometry of the DESI fibre positioners in the focal plane of the telescope affects the completeness of the survey, and has a non-trivial impact on clustering measurements. Using a BGS mock catalogue, we show that completeness due to fibre assignment primarily depends on the surface density of galaxies. Completeness is high (>95%) in low density regions, but very low (<10%) in the centre of massive clusters. We apply the pair inverse probability (PIP) weighting correction to clustering measurements from a BGS mock which has been through the fibre assignment algorithm. This method is only unbiased if it is possible to observe every galaxy pair. To facilitate this, we randomly promote a small fraction of the fainter sample to be high priority, and dither the set of tile positions by a small angle. We show that inverse pair weighting combined with angular upweighting provides an unbiased correction to galaxy clustering measurements for the complete 3 pass survey, and also after 1 pass, which is highly incomplete., Comment: 18 pages, 17 figures, 4 tables, accepted for publication in MNRAS

Published

2018

2. The PAU Survey: star-galaxy classification with multi narrow-band data

Author

Cabayol, Laura, Sevilla-Noarbe, Ignacio, Fernández, Enrique, Carretero, Jorge, Eriksen, Martin, Serrano, Santiago, Alarcón, Alex, Amara, Adam, Casas, Ricard, Castander, Francisco Javier, de Vicente, Juan, Folger, Martin, García-Bellido, Juan, Gaztanaga, Enrique, Hoekstra, Henk, Miquel, Ramon, Padilla, Cristobal, Sánchez, Eusebio, Stothert, Lee, Tallada, Pau, and Tortorelli, Luca

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Classification of stars and galaxies is a well-known astronomical problem that has been treated using different approaches, most of them relying on morphological information. In this paper, we tackle this issue using the low-resolution spectra from narrow band photometry, provided by the PAUS (Physics of the Accelerating Universe) survey. We find that, with the photometric fluxes from the 40 narrow band filters and without including morphological information, it is possible to separate stars and galaxies to very high precision, 98.4% purity with a completeness of 98.8% for objects brighter than I = 22.5. This precision is obtained with a Convolutional Neural Network as a classification algorithm, applied to the objects' spectra. We have also applied the method to the ALHAMBRA photometric survey and we provide an updated classification for its Gold sample., Comment: 13 pages, 10 figures, the catalog with the ALHAMBRA classification is available at http://cosmohub.pic.es

Published

2018

3. The PAU Survey: A Forward Modeling Approach for Narrow-band Imaging

Author

Tortorelli, Luca, Della Bruna, Lorenza, Herbel, Jörg, Amara, Adam, Refregier, Alexandre, Alarcon, Alex, Castander, Francisco J., De Vicente, Juan, Eriksen, Martin, Fernandez, Enrique, García-Bellido, Juan, Gaztanaga, Enrique, Miquel, Ramon, Padilla, Cristobal, Sanchez, Eusebio, Serrano, Santiago, Stothert, Lee, and Tonello, Nadia

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Weak gravitational lensing is a powerful probe of the dark sector, once measurement systematic errors can be controlled. In Refregier & Amara (2014), a calibration method based on forward modeling, called MCCL, was proposed. This relies on fast image simulations (e.g., UFig; Berge et al. 2013) that capture the key features of galaxy populations and measurement effects. The MCCL approach has been used in Herbel et al. (2017) to determine the redshift distribution of cosmological galaxy samples and, in the process, the authors derived a model for the galaxy population mainly based on broad-band photometry. Here, we test this model by forward modeling the 40 narrow-band photometry given by the novel PAU Survey (PAUS). For this purpose, we apply the same forced photometric pipeline on data and simulations using Source Extractor (Bertin & Arnouts 1996). The image simulation scheme performance is assessed at the image and at the catalogues level. We find good agreement for the distribution of pixel values, the magnitudes, in the magnitude-size relation and the interband correlations. A principal component analysis is then performed, in order to derive a global comparison of the narrow-band photometry between the data and the simulations. We use a `mixing' matrix to quantify the agreement between the observed and simulated sets of Principal Components (PCs). We find good agreement, especially for the first three most significant PCs. We also compare the coefficients of the PCs decomposition. While there are slight differences for some coefficients, we find that the distributions are in good agreement. Together, our results show that the galaxy population model derived from broad-band photometry is in good overall agreement with the PAUS data. This offers good prospect for incorporating spectral information to the galaxy model by adjusting it to the PAUS narrow-band data using forward modeling., Comment: Submitted to JCAP, 28 pages, 15 figures, 3 appendices

Published

2018

4. Statistics in large galaxy redshift surveys

Author

Stothert, Lee John

Subjects

530

Abstract

This thesis focuses on modeling and measuring pairwise statistics in large galaxy redshift surveys. The first part focuses on two point correlation function measurements relevant to the Euclid and DESI BGS surveys. Two point measurements in these surveys will have small statistical errors, so understanding and correcting for systematic bias is particularly important. We use point processes to build catalogues with analytically known two point, and for the first time, 3-point correlation functions for use in validating the Euclid clustering pipeline. We build and summarise a two point correlation function code, \texttt{2PCF}, and show it successfully recovers the two point correlation function of a DESI BGS mock catalogue. The second part of this thesis focuses on work related to the PAU Survey (PAUS), a unique narrow band wide field imaging survey. We present a mock catalogue for PAUS based on a physical model of galaxy formation implemented in an N-body simulation, and use it to quantify the competitiveness of the narrow band imaging for measuring novel spectral features and galaxy clustering. The mock catalogue agrees well with observed number counts and redshift distributions. We show that galaxy clustering is recovered within statistical errors on two-halo scales but care must be taken on one halo scales as sample mixing can bias the result. We present a new method of detecting galaxy groups, Markov clustering (MCL), that detects groups using pairwise connections. We explain that the widely used friends-of-friends (FOF) algorithm is a subset of MCL. We show that in real space MCL produces a group catalogue with higher purity and completeness, and a more accurate cumulative multiplicity function, than the comparable FOF catalogue. MCL allows for probabilistic connections between galaxies, so is a promising approach for catalogues with mixed redshift precision such as PAUS, or future surveys such as 4MOST-WAVES.

Published

2018

5. Correcting for fibre assignment incompleteness in the DESI Bright Galaxy Survey

Author

Smith, Alex, primary, He, Jian-hua, additional, Cole, Shaun, additional, Stothert, Lee, additional, Norberg, Peder, additional, Baugh, Carlton, additional, Bianchi, Davide, additional, Wilson, Michael J, additional, Brooks, David, additional, Forero-Romero, Jaime E, additional, Moustakas, John, additional, Percival, Will J, additional, Tarle, Gregory, additional, and Wechsler, Risa H, additional

Published

2019

6. The PAU Survey: a forward modeling approach for narrow-band imaging

Author

Tortorelli, Luca, primary, Bruna, Lorenza Della, additional, Herbel, Jörg, additional, Amara, Adam, additional, Refregier, Alexandre, additional, Alarcon, Alex, additional, Carretero, Jorge, additional, Castander, Francisco J., additional, Vicente, Juan De, additional, Eriksen, Martin, additional, Fernandez, Enrique, additional, Folger, Martin, additional, García-Bellido, Juan, additional, Gaztanaga, Enrique, additional, Miquel, Ramon, additional, Padilla, Cristobal, additional, Sanchez, Eusebio, additional, Serrano, Santiago, additional, Stothert, Lee, additional, Tallada, Pau, additional, and Tonello, Nadia, additional

Published

2018