AMAZE

Maiolino, R.; Nagao, T.; Grazian, A.; Cocchia, F.; Marconi, A.; Mannucci, F.; Cimatti, A.; Pipino, A.; Ballero, S.; Calura, F.; Chiappini, C.; Fontana, A.; Granato, G. L.; Matteucci, F.; Pastorini, G.; Pentericci, L.; Risaliti, G.; Salvati, M.; Silva, L.

doi:10.1051/0004-6361:200809678

articleAstronomy and AstrophysicsJul 1, 2008BRONZE OA

AMAZE

RMR. MaiolinoTNT. NagaoAGA. GrazianFCF. CocchiaAMA. Marconi

Astronomical Observatory of Rome · National Astronomical Observatory of Japan · +8 more institutions

Indexed inarxivcrossrefdoaj

Abstract

We present initial results of an ESO-VLT large programme (AMAZE) aimed at determining the evolution of the mass-metallicity relation at z > 3 by means of deep near-IR spectroscopy. Gas metallicities are measured, for an initial sample of nine star forming galaxies at z ~ 3.5, by means of optical nebular lines redshifted into the near-IR. Stellar masses are accurately determined by using Spitzer-IRAC data, which sample the rest-frame near-IR stellar light in these distant galaxies. When compared with previous surveys, the mass-metallicity relation inferred at z ~ 3.5 shows an evolution much stronger than observed at lower redshifts. The evolution is prominent even in massive galaxies, indicating that z ~ 3 is…

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Authors

19

RM
R. MaiolinoCorresponding
Astronomical Observatory of Rome
TN
T. Nagao
National Astronomical Observatory of Japan
AG
A. Grazian
Astronomical Observatory of Rome
FC
F. Cocchia
Astronomical Observatory of Rome
AM
A. Marconi
University of Florence

Topics & keywords

Topics

Keywords

Galaxy
Metallicity
Star formation
Galaxy formation and evolution
Redshift
Chemical evolution
Stellar mass
Stellar evolution

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