Your search keyword '"Pol Martí"' showing total 4 results

1. The Physics of the Accelerating Universe Camera

Author

José M. Illa, Enrique Fernández, J. Carretero, Pau Tallada, M. Delfino, Carlos Díaz, I. Sevilla-Noarbe, Martin Crocce, Juan de Vicente, Francisco J. Castander, Javier Castilla, Juan Garcia-Bellido, A. Alarcon, Martin Eriksen, Luis Lopez, C. Neissner, Jelena Aleksić, S. Serrano, Cristóbal Pío, Pablo Fosalba, Laia Cardiel-Sas, Ramon Miquel, Nadia Tonello, Laura Cabayol, Cristobal Padilla, Ricard Casas, O. Ballester, Ferran Grañena, Pol Martí, Enrique Gaztanaga, J. Gaweda, E. J. Sanchez, and Jorge Jiménez

Subjects

Physics, 010504 meteorology & atmospheric sciences, Astrophysics::Instrumentation and Methods for Astrophysics, Astronomy, FOS: Physical sciences, Astronomy and Astrophysics, Field of view, Astrophysics::Cosmology and Extragalactic Astrophysics, 01 natural sciences, Galaxy, Redshift, Photometry (optics), Cardinal point, Space and Planetary Science, 0103 physical sciences, William Herschel Telescope, Galaxy formation and evolution, Spectral energy distribution, Astrophysics - Instrumentation and Methods for Astrophysics, 010303 astronomy & astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Astrophysics::Galaxy Astrophysics, 0105 earth and related environmental sciences

Abstract

The PAU (Physics of the Accelerating Universe) Survey goal is to obtain photometric redshifts (photo-z) and Spectral Energy Distribution (SED) of astronomical objects with a resolution roughly one order of magnitude better than current broad band photometric surveys. To accomplish this, a new large field of view camera (PAUCam) has been designed, built, commissioned and is now operated at the William Herschel Telescope (WHT). With the current WHT Prime Focus corrector, the camera covers ~1-degree diameter Field of View (FoV), of which, only the inner ~40 arcmin diameter are unvignetted. The focal plane consists of a mosaic of 18 2k$x4k Hamamatsu fully depleted CCDs, with high quantum efficiency up to 1 micrometers in wavelength. To maximize the detector coverage within the FoV, filters are placed in front of the CCDs inside the camera cryostat (made out of carbon fiber) using a challenging movable tray system. The camera uses a set of 40 narrow band filters ranging from ~4500 to ~8500 Angstroms complemented with six standard broad-band filters, ugrizY. The PAU Survey aims to cover roughly 100 square degrees over fields with existing deep photometry and galaxy shapes to obtain accurate photometric redshifts for galaxies down to i_AB~22.5, detecting also galaxies down to i_AB~24 with less precision in redshift. With this data set we will be able to measure intrinsic alignments, galaxy clustering and perform galaxy evolution studies in a new range of densities and redshifts. Here, we describe the PAU camera, its first commissioning results and performance., 34 pages, 55 figures

Published

2019

2. The PAU camera at the WHT

Author

Pol Martí, Christian Niessner, Ramon Miquel, Pablo Fosalba, Luis Lopez, Juan Garcia-Bellido, Martin Eriksen, Juan de Vicente, J. Carretero, Santiago Serrano, Jorge Jiménez, Javier Castilla, Laia Cardiel-Sas, Enrique Fernández, Martin Croce, Cristóbal Pío, Ricard Casas, Cales Hernández, Rafael Ponce, Nadia Tonello, M. Delfino, Enrique Gaztanaga, E. J. Sanchez, O. Ballester, Cristobal Padilla, I. Sevilla, and Ferran Grañena

Subjects

Physics, Galactic astronomy, 010308 nuclear & particles physics, business.industry, Detector, Astrophysics::Instrumentation and Methods for Astrophysics, Astronomy, Field of view, Astrophysics::Cosmology and Extragalactic Astrophysics, 01 natural sciences, Galaxy, Redshift, Optics, Cardinal point, 0103 physical sciences, William Herschel Telescope, Astrophysics::Solar and Stellar Astrophysics, business, 010303 astronomy & astrophysics, Astrophysics::Galaxy Astrophysics, Weak gravitational lensing

Abstract

The PAU (Physics of the Accelerating Universe) project goal is the study of dark energy with a new photometric technique aiming at obtaining photo-z resolution for Luminous Red Galaxies (LRGs) roughly one order of magnitude better than current photometric surveys. To accomplish this, a new large field of view camera (PAUCam) has been built and commissioned at the William Herschel Telescope (WHT). With the current WHT corrector, the camera covers ~1 degree diameter Field of View (FoV). The focal plane consists of 18 2kx4k Hamamatsu fully depleted CCDs, with high quantum efficiency up to 1 μm. To maximize the detector coverage within the FoV, filters are placed in front of the CCD's inside the camera cryostat (made of carbon fiber material) using a challenging movable tray system. The camera uses a set of 40 narrow band filters ranging from ~4400 to ~8600 angstroms complemented with six standard broad-band filters, ugrizY. Here, we describe the camera and its first commissioning results. The PAU project aims to cover roughly 100 square degrees and to obtain accurate photometric redshifts for galaxies down to iAB ~ 22:5 detecting also galaxies down to iAB ~ 24 with less precision in redshift. With this data set we will obtain competitive constraints in cosmological parameters using both weak lensing and galaxy clustering as main observational probes.

Published

2016

3. Cross-correlation of spectroscopic and photometric galaxy surveys: cosmology from lensing and redshift distortions

Author

Enrique Gaztanaga, Pol Martí, Martin Eriksen, Ramon Miquel, Pablo Fosalba, Francisco J. Castander, Anna Cabré, and Martin Crocce

Subjects

Physics, 010308 nuclear & particles physics, Astronomy and Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, 01 natural sciences, Galaxy, Cosmology, Redshift, Redshift-space distortions, Space and Planetary Science, 0103 physical sciences, Dark energy, Baryon acoustic oscillations, 010303 astronomy & astrophysics, Astrophysics::Galaxy Astrophysics, Weak gravitational lensing, Photometric redshift

Abstract

Cosmological galaxy surveys aim at mapping the largest volumes to test models with techniques such as cluster abundance, cosmic shear correlations or baryon acoustic oscillations (BAO), which are designed to be independent of galaxy bias. Here we explore an alternative route to constrain cosmology: sampling more moderate volumes with the cross-correlation of photometric and spectroscopic surveys. We consider the angular galaxy-galaxy autocorrelation in narrow redshift bins and its combination with different probes of weak gravitational lensing (WL) and redshift space distortions (RSD). Including the cross-correlation of these surveys improves by factors of a few the constraints on both the dark energy equation of state w(z) and the cosmic growth history, parametrized by \gamma. The additional information comes from using many narrow redshift bins and from galaxy bias, which is measured both with WL probes and RSD, breaking degeneracies that are present when using each method separately. We show forecasts for a joint w(z) and \gamma figure of merit using linear scales over a deep (i

Published

2012

4. The PAU camera and the PAU survey at the William Herschel Telescope

Author

Francisco J. Castander, Carles Hernández, Juan de Vicente, Enrique Fernández, Martin Crocce, Pablo Fosalba, Javier Castilla, Santiago Serrano, E. J. Sanchez, Ferran Grañena, Rafael Ponce, Nadia Tonello, Enrique Gaztanaga, O. Ballester, I. Sevilla, J. Carretero, Luis Lopez, A. H. Bauer, C. Neissner, Ricard Casas, M. Delfino, Jorge Jiménez, Juan Garcia-Bellido, Laia Cardiel-Sas, Cristóbal Pío, Martin Eriksen, Pol Martí, Cristobal Padilla, and Ramon Miquel

Subjects

Physics, Optics, Galactic astronomy, business.industry, Filter (video), William Herschel Telescope, Dark energy, Astronomy, Field of view, business, Weak gravitational lensing, Galaxy, Redshift

Abstract

The Physics of the Accelerating Universe (PAU) is a project whose main goal is the study of dark energy. For this purpose, a new large field of view camera (the PAU Camera, PAUCam) is being built. PAUCam is designed to carry out a wide area imaging survey with narrow and broad band filters spanning the optical wavelength range. The PAU Camera is now at an advance stage of construction. PAUCam will be mounted at the prime focus of the William Herschel Telescope. With the current WHT corrector, it will cover a 1 degree diameter field of view. PAUCam mounts eighteen 2k×4k Hamamatsu fully depleted CCDs, with high quantum efficiency up to 1 μm. Filter trays are placed in front of the CCDs with a technologically challenging system of moving filter trays inside the cryostat. The PAU Camera will use a new set of 42 narrow band filters ranging from ~4400 to ~8600 angstroms complemented with six standard broad-band filters, ugrizY. With PAUCam at the WHT we will carry out a cosmological imaging survey in both narrow and broad band filters that will perform as a low resolution spectroscopic survey. With the current survey strategy, we will obtain accurate photometric redshifts for galaxies down to i AB ~22.5 detecting also galaxies down to i AB ~24 with less precision in redshift. With this data set we will obtain competitive constraints in cosmological parameters using both weak lensing and galaxy clustering as main observational probes.

Published

2012