Physics – Optics
Scientific paper
Nov 1998
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1998phdt........20w&link_type=abstract
Thesis (PHD). HARVARD UNIVERSITY , Source DAI-B 59/05, p. 2248, Nov 1998, 150 pages.
Physics
Optics
Scientific paper
An experiment to detect proto-galactic structure at high redshift is described. We attempt to observe this in the 1420 MHz line from neutral atomic hydrogen in the redshift range 4.7<= z<5.5/ (219<ν<251 MHz). The expected signal is very weak and we need a large aperture and a very long integration time for a detection to be feasible. This is achieved by building a dedicated and specialized instrument, which allows the experiment to run continuously, in the background, at the largest single dish reflector in the world-the Arecibo radio-telescope. The motivation for the experiment is to provide an observational link between the very smooth conditions presumed to exist in the primordial universe, as confirmed by observations of the Cosmic Microwave Background (CMB) at z~1000, and the clumpy conditions that we observe locally in the hierarchy of galaxies, clusters and superclusters. The introduction includes a literature survey and an outline of relevant cosmological theory. A discussion of high-redshift astronomy, including past and current searches for protoclusters, is followed by a description of our approach to the problem. For simplicity a point feed is used to illuminate the spherical reflector at Arecibo. The design of the optics is discussed-based on this analysis and the radiative characteristics of neutral hydrogen gas we estimate that it is feasible to detect a 1014Msolar cloud in a long, though not unachievable, time span. A custom designed radioastronomy receiver backs up the feed system. It includes analog front-end amplifiers and filters, local oscillators and mixers, and an eight kilochannel hybrid spectrometer with 10 kHz spectral resolution over the survey band. We have written software to automatically reduce the large quantity of data gathered. Radio frequency interference (RFI) pervades our system, and analysis problems include the development of robust methods for co-adding data in the presence of time-varying RFI, and matched filtering to recognize candidate celestial signals in noisy data by their signature in time and frequency. Our sensitivity is limited by interference rather than thermal noise. The outcome of the experiment is negative, and we conclude by setting a limit on the mass of protoclusters in our search volume.
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