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Technology Advances for Radio Astronomy

<p>The field of radio astronomy continues to provide fundamental contributions to the understanding of the evolution, and inner workings of, our universe. It has done so from its humble beginnings, where single antennas and receivers were used for observation, to today's focal plane arrays and interferometers. The number of receiving elements (pixels) in these instruments is quickly growing, currently approaching one hundred. For the instruments of tomorrow, the number of receiving elements will be in the thousands. Such instruments will enable researchers to peer deeper into the fabric of our universe and do so at faster survey speeds. They will provide enormous capability, both for unraveling today's mysteries as well as for the discovery of new phenomena.</p>

<p>Among other challenges, producing the large numbers of low-noise amplifiers required for these instruments will be no easy task. The work described in this thesis advances the state of the art in three critical areas, technological advancements necessary for the future design and manufacturing of thousands of low-noise amplifiers. These areas being: the automated, cryogenic, probing of $\diameter100$ mm indium phosphide wafers; a system for measuring the noise parameters of devices at cryogenic temperatures; and the development of low-noise, silicon germanium amplifiers for terahertz mixer receivers. The four chapters that comprise the body of this work detail the background, design, assembly, and testing involved in these contributions. Also included is a brief survey of noise parameters, the knowledge of which is fundamental to the design of low-noise amplifiers and the optimization of the system noise temperature for large, dense, interferometers.</p>

Identiferoai:union.ndltd.org:CALTECH/oai:thesis.library.caltech.edu:7286
Date January 2013
CreatorsRussell, Damon Stuart
Source SetsCalifornia Institute of Technology
LanguageEnglish
Detected LanguageEnglish
TypeThesis, NonPeerReviewed
Formatapplication/pdf
Rightsother
Relationhttps://thesis.library.caltech.edu/7286/, https://resolver.caltech.edu/CaltechTHESIS:11262012-212534634, CaltechTHESIS:11262012-212534634, 10.7907/MW3P-2S22

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