Narrow-band surveys for very high redshift Lyman-alpha emitters
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Date
2007
Journal Title
Journal ISSN
Volume Title
Publisher
EDP SCIENCES S A
Abstract
Context. Many current and future surveys aim to detect the highest redshift ( z greater than or similar to 7) sources through their Lyman-alpha (Ly alpha) emission, using the narrow- band imaging method. However, to date the surveys have only yielded non- detections and upper limits as no survey has reached the necessary combination of depth and area to detect these very young star forming galaxies.
Aims. We aim to calculate model luminosity functions and mock surveys of Ly alpha emitters at z greater than or similar to 7 based on a variety of approaches calibrated and tested on observational data at lower redshifts.
Methods. We calculate model luminosity functions at different redshifts based on three different approaches: a semi-analytical model based on CDM, a simple phenomenological model, and an extrapolation of observed Schechter functions at lower redshifts. The results of the first two models are compared with observations made at redshifts z similar to 5.7 and z similar to 6.5, and they are then extrapolated to higher redshift.
Results. We present model luminosity functions for redshifts between z = 7-12.5 and give specific number predictions for future planned or possible narrow- band surveys for Ly alpha emitters. We also investigate what constraints future observations will be able to place on the Ly alpha luminosity function at very high redshift.
Conclusions. It should be possible to observe z = 7- 10 Ly alpha emitters with present or near-future instruments if enough observing time is allocated. In particular, large area surveys such as ELVIS ( Emission Line galaxies with VISTA Survey) will be useful in collecting a large sample. However, to get a large enough sample to constrain well the z greater than or similar to 10 Ly alpha luminosity function, instruments further in the future, such as an ELT, will be necessary.
Aims. We aim to calculate model luminosity functions and mock surveys of Ly alpha emitters at z greater than or similar to 7 based on a variety of approaches calibrated and tested on observational data at lower redshifts.
Methods. We calculate model luminosity functions at different redshifts based on three different approaches: a semi-analytical model based on CDM, a simple phenomenological model, and an extrapolation of observed Schechter functions at lower redshifts. The results of the first two models are compared with observations made at redshifts z similar to 5.7 and z similar to 6.5, and they are then extrapolated to higher redshift.
Results. We present model luminosity functions for redshifts between z = 7-12.5 and give specific number predictions for future planned or possible narrow- band surveys for Ly alpha emitters. We also investigate what constraints future observations will be able to place on the Ly alpha luminosity function at very high redshift.
Conclusions. It should be possible to observe z = 7- 10 Ly alpha emitters with present or near-future instruments if enough observing time is allocated. In particular, large area surveys such as ELVIS ( Emission Line galaxies with VISTA Survey) will be useful in collecting a large sample. However, to get a large enough sample to constrain well the z greater than or similar to 10 Ly alpha luminosity function, instruments further in the future, such as an ELT, will be necessary.
Description
Keywords
cosmology : theory, cosmology : early Universe, galaxies : high-redshift, surveys, SUBARU DEEP FIELD, GUNN-PETERSON TROUGH, LY-ALPHA, EMISSION-LINES, LUMINOSITY FUNCTION, EMITTING GALAXIES, COSMOLOGICAL SIMULATIONS, COSMIC REIONIZATION, POPULATION-III, SEARCH