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29 March 2024
 
  » arxiv » astro-ph/9712141

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Implications of Spikes in the Redshift Distribution of $zsim3$ Galaxies
Risa H. Wechsler ; Michael A. K. Gross ; Joel R. Primack ; George R. Blumenthal ; Avishai Dekel ;
Date 10 Dec 1997
Journal Astrophys.J. 506 (1998) 19-32
Subject astro-ph
Affiliation1,2), Joel R. Primack , George R. Blumenthal (1,3), and Avishai Dekel (1,3) ( UC Santa Cruz, NASA/Goddard Space Flight Center, Hebrew University of Jerusalem.
AbstractWe address the high peaks found by Steidel et al (1997) in the redshift distribution of ``Lyman-break’’ objects (LBOs) at redshift z~3. The highest spike represents a relative overdensity of 2.6 in the distribution of LBOs in pixels of comoving size ~10Mpc/h. We examine the likelihood of such a spike in the redshift distribution within a suite of models for the evolution of structure in the Universe, including models with Omega=1 (SCDM and CHDM) and with Omega=0.4-0.5 (LCDM and OCDM). Using high-resolution dissipationless N-body simulations, we analyze deep pencil-beam surveys from these models in the same way that they are actually observed, identifying LBOs with the most massive dark matter halos. We find that all the models (with SCDM as a marginal exception) have a substantial probability of producing spikes similar to those observed, because the massive halos are much more clumped than the underlying matter -- i.e., they are biased. Therefore, the likelihood of such a spike is not a good discriminator among these models. We find in these models that the mean biasing parameter b of LBOs with respect to dark matter varies within a range b ~2-5 on a scale of ~10Mpc/h. We also compute the two-body correlation functions of LBOs predicted in these models. The LBO correlation functions are less steep than galaxies today (gamma ~1.4), but show similar or slightly longer correlation lengths.
Source arXiv, astro-ph/9712141
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