Click here to see a list of papers that use (or refer to) data of the PAU Survey. And corresponding metrics for those papers.

  1. The PAU Survey: Measurement of Narrow-band galaxy properties with Approximate Bayesian Computation (L.Tortorelli; M.Siudek) 2021arXiv210602651T
  2. Dark Energy Survey Year 3 Results: Redshift Calibration of the Weak Lensing Source Galaxies   (J.Myles; A.Alarcon et al) 2020arXiv201208566M
  3. The PAU Survey: narrow-band photometric redshifts using Gaussian processes   (J.Soo; B.Joachimi, et al.) 2021MNRAS.503.4118S
  4. The PAU Survey: estimating galaxy photometry with deep learning  (L.Cabayol-Garcia; M.Eriksen, et al.) 2021arXiv210402778C, MNRAS in press
  5. The PAU Survey: an improved photo-z sample in the COSMOS field  (A.Alarcon; E.Gaztanaga, et al.) 2021MNRAS.501.6103A
  6. The PAU Survey: Ly alpha intensity mapping forecast  (P.Renard; E.Gaztanaga,  et al.) 2021MNRAS.501.3883R
  7. The PAU Survey: Intrinsic alignments and clustering of narrow-band photometric galaxies (H.Johnston; B.Joachimi.et al.) 2021A&A…646A.147J
  8. The PAU Survey: Photometric redshifts using transfer learning from simulations (M.Eriksen; A.Alarcon et al.) 2020MNRAS.497.4565E
  9. The PAU Survey: background light estimation with deep learning techniques (L.Cabayol-Garcia; M.Eriksen et al.) 2020MNRAS.491.5392C
  10. The Physics of the Accelerating Universe Camera: PAUCam (C.Padilla, F.J.Castander et al.) 2019, AJ, 157, 246
  11. The PAU Survey: Early demonstration of photometric redshifts (M.Eriksen; A.Alarcon; E.Gaztanaga et al. ) 2018, MNRAS 484, 4200–4215
  12. The PAU Survey: Operation and orchestration of multi-band data (NP.Tonello; P.Tallada; S.Serrano et al.) 2018, 2019A&C….27..171T
  13. The PAU Survey: Measuring spectral features and galaxy clustering using narrow band photometry (L.Stothert; P.Norberg et al.) 2018, MNRAS481, 4221–4235.
  14. The PAU Survey: star-galaxy classification with multi narrow-band data (L.Cabayol; N.Sevilla et al.) 2018, 2019MNRAS.483..529C
  15. The PAU Survey: A Forward Modeling Approach for Narrow-band Imaging (L.Tortorelli, L.Della Bruna;J.Herbel et al.) 2018, 2018JCAP…11..035T
  16. Cosmological constraints from multiple tracers in spectroscopic surveys (A.Alarcon; M.Eriksen; E.Gaztañaga) 2016, 2018MNRAS.473.1444A
  17. Combining spectroscopic and photometric surveys: Same or different sky? (M.Eriksen; E.Gaztañaga) 2015 MNRAS.451.1553E
  18. Combining spectroscopic and photometric surveys using angular cross-correlations III: Galaxy bias and stochastisity (M.Eriksen; E.Gaztañaga)  2015, 2018MNRAS.480.5226E
  19. Combining spectroscopic and photometric surveys using angular cross-correlations – II. Parameter constraints from different physical effects (M.Eriksen; E.Gaztanaga) 2015, MNRAS, 452, 2168
  20. Combining spectroscopic and photometric surveys using angular cross-correlations – I. Algorithm and modelling (M.Eriksen; E.Gaztanaga) 2015,  MNRAS, 452, 2149
  21. Precise photometric redshifts with a narrow-band filter set: the PAU survey at the William Herschel Telescope (P.Martí; R.Miquel et al.) 2014MNRAS.442…92M
  22. Photo-z quality cuts and their effect on the measured galaxy clustering (P.Martí; R.Miquel et al.) 2014MNRAS.437.3490M
  23. Cross-correlation of spectroscopic and photometric galaxy surveys: cosmology from lensing and redshift distortions (E.Gaztañaga; M.Eriksen et al.) 2012MNRAS.422.2904G
  24. Galaxies and cosmology with the projects Physics of the Accelerating Universe (PAU) and Dark Energy Survey (DES) (F.J.Castander) 2011sf2a.conf…69C
  25. Measuring Baryon Acoustic Oscillations Along the Line of Sight with Photometric Redshifts: The PAU Survey (NP.Benítez; E.Gaztanaga; R.Miquel et al.) 2009ApJ…691..241B

Proceedings

  1. Calibrating the PAU Survey’s 46 Filters (A.Bauer,  F.J.Castander, E.Gaztañaga et al.)  2016, The Science of Calibration, 503, 99
  2. Characterization and performance of PAUCam filters (R.Casas, L.Cardiel-Sas, F.J.Castander et al.)  2016,  PSPIE, 9908, 99084K
  3. The PAUCam readout electronics system (J.Jiménez, J.M. Illa et al.) Proceedings of the SPIE, Volume 9908, id. 99084J 7 pp. (2016)
  4. The PAU camera carbon fiber cryostat and filter interchange system (L.Lopez, C.Padilla, L.Cardiel-Sas et al.) 2016,  PSPIE, 9908, 99084G
  5. The PAU camera at the WHT (C.Padilla, O.Ballester, L.Cardiel-Sas et al.) 2016,  PSPIE, 9908, 99080Z https://arxiv.org/abs/1902.03623
  6. Testing fully depleted CCD (R.Casas, L.Cardiel-Sas, F.J.Castander, J.Jiménez, J.de Vicente) 2014SPIE.9147E..2RC
  7. PAU, a fully depleted mosaic imager with narrow band filters (A.Bauer, R.Casas, F.Castander, S.Serrano) Journal of Instrumentation, Volume 9, Issue 03, article id. C03039 (2014)
  8. The PAUCam readout electronics, integration and test (AIT) (J.Jiménez, J.M.Illa et al.) Proceedings of the SPIE, Volume 9147, id. 91474Q 10 pp. (2014)
  9. The PAU camera and the PAU survey at the William Herschel Telescope (F.J.Castander,  O.Ballester et al.) 2012SPIE.8446E..6DC
  10. Architecture of PAU survey camera readout electronics (J.Castilla, L.Cardiel-Sas, J.de Vicente, J.Illa, J.Jimenez; M.Maiorino, G.Martinez) 2012SPIE.8453E..2PC
  11. PAU camera: detectors characterization (R.Casas et al.) 2012SPIE.8453E..26C
  12. Test benches facilities for PAUCam: CCDs and filters characterization (J.Jiménez et al.) Ground-based and Airborne Instrumentation for Astronomy IV. Proceedings of the SPIE, Volume 8446, article id. 84466N, 10 pp. (2012)
  13. Test bench for PAUCam (R.Ponce et al.) 2011hsa6.conf..781P
  14. The PAU Camera (R.Casas) 2011hsa6.conf..674C
  15. PAUCam filter interchange system (F.Madrid et al.) 2010SPIE.7735E..3RM
  16. The PAU camera (R.Casas et al.) 2010SPIE.7735E..36C
  17. The PAU Camera (R.Casas et al.) Highlights of Spanish Astrophysics VI, Proceedings of the IX Scientific Meeting of the Spanish Astronomical Society (SEA), held in Madrid, September 13 – 17, 2010, Eds.: M. R. Zapatero Osorio, J. Gorgas, J. Maíz Apellániz, J. R. Pardo, and A. Gil de Paz., p. 674-679
  18. The PAU camera (F.J.Castander) 2008SPIE.7014E..5CC