Your search keyword '"Hsiao-Wen Chen"' showing total 3 results

1. Spectroscopic identification of a galaxy at a probable redshift of z = 6.68

Author

Sebastian Pascarelle, Hsiao-Wen Chen, and Kenneth M. Lanzetta

Subjects

Physics, Luminous infrared galaxy, Multidisciplinary, Radio galaxy, Astronomy, Type-cD galaxy, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, Redshift, Galaxy, Luminosity, Observational cosmology, Brightest cluster galaxy, Astrophysics::Galaxy Astrophysics

Abstract

The detection and identification of distant galaxies is an important goal of observational cosmology, as such galaxies are seen at a time when the Universe was very young. The development of new techniques and instrumentation permits the search for ever-fainter galaxies, and so aids attempts to determine when the first stars and galaxies formed. Here we report the identification of a galaxy at a probable redshift of 6.68, the most distant object yet detected. The galaxy's spectrum is characterized by an abrupt discontinuity at a wavelength λ≈ 9,300 A, which we interpret as arising from the absorption of light at shorter wavelengths by hydrogen gas along the line of sight (the Lyman-α decrement), and by an emission line at λ≈ 9,334 A, which we interpret as the Lyman-α line at a redshift of 6.68. The galaxy is relatively bright: the ultraviolet luminosity density contributed by this one galaxy is almost ten times the value measured at z = 3.

Published

1999

2. A high abundance of massive galaxies 3-6 billion years after the Big Bang.

Author

Glazebrook, Karl, Abraham, Roberto G., McCarthy, Patrick J., Savaglio, Sandra, Hsiao-Wen Chen, Crampton, David, Murowinski, Rick, Jørgensen, Inger, Roth, Kathy, Hook, Isobel, Marzke, Ronald O., and Carlberg, R. G.

Subjects

GALAXIES, STARS, COAL gas, SPECTRUM analysis

Abstract

Hierarchical galaxy formation is the model whereby massive galaxies form from an assembly of smaller units. The most massive objects therefore form last. The model succeeds in describing the clustering of galaxies, but the evolutionary history of massive galaxies, as revealed by their visible stars and gas, is not accurately predicted. Near-infrared observations (which allow us to measure the stellar masses of high-redshift galaxies) and deep multi-colour images indicate that a large fraction of the stars in massive galaxies form in the first 5?Gyr (refs 4-7), but uncertainties remain owing to the lack of spectra to confirm the redshifts (which are estimated from the colours) and the role of obscuration by dust. Here we report the results of a spectroscopic redshift survey that probes the most massive and quiescent galaxies back to an era only 3?Gyr after the Big Bang. We find that at least two-thirds of massive galaxies have appeared since this era, but also that a significant fraction of them are already in place in the early Universe. [ABSTRACT FROM AUTHOR]

Published

2004

3. Spectroscopic identification of a galaxy at a probable redshift of z=6.68.

Author

Hsiao-Wen Chen, Lanzetta, Kenneth M., and Pascarelle, Sebastian

Subjects

*REDSHIFT, *GALAXIES, *ULTRAVIOLET astronomy, *SPECTRUM analysis, *ASTRONOMICAL observations

Abstract

Presents research which identified a galaxy at a probable redshift of 6.68, the most distant object yet detected. Discontinuity in the galaxy's spectrum; Wavelength and emission line measurements; Lyman-alpha measurements; Brightness and the ultraviolet luminosity density.

Published

1999