Measuring the Universe: A Multiwavelength Perspective
Author(s): George H. Rieke (Author)
Publisher: Cambridge University Press
Publication Date: August 27, 2012
Edition: 1st
Language: English
Print length: 352 pages
ISBN-10: 0521762294
ISBN-13: 9780521762298
Book Description
Astronomy is an observational science, renewed and even revolutionized by new developments in instrumentation. With the resulting growth of multiwavelength investigation as an engine of discovery, it is increasingly important for astronomers to understand the underlying physical principles and operational characteristics for a broad range of instruments. This comprehensive text is ideal for graduate students, active researchers and instrument developers. It is a thorough review of how astronomers obtain their data, covering current approaches to astronomical measurements from radio to gamma rays. The focus is on current technology rather than the history of the field, allowing each topic to be discussed in depth. Areas covered include telescopes, detectors, photometry, spectroscopy, adaptive optics and high- contrast imaging, millimeter-wave and radio receivers, radio and optical/infrared interferometry, and X-ray and gamma-ray astronomy, all at a level that bridges the gap between the basic principles of optics and the subject’s abundant specialist literature. Color versions of figures and solutions to selected problems are available online at www.cambridge.org/9780521762298.
Editorial Reviews
Review
“This text fills a long-standing need for a broad treatment of modern observational astronomy techniques suitable for graduate and upper-division undergraduate students of astronomy, physics, and engineering. It provides useful descriptions of practical issues that are encountered when applying the techniques and technologies.” – Jason Glenn, Professor of Astrophysics, University of Colorado, Boulder
“Rieke is an ambassador of astronomical hardware, making the world of telescopes, instruments and detectors intelligible and palatable to observers, and those who analyze and model data. This textbook, written for advanced undergraduate and graduate students, provides an excellent starting point and overview for those who venture into building hardware. For those who just use astronomical facilities and data, the book provides precisely all they ‘need to know’.” – Hans-Walter Rix, Director, Max Planck Institute for Astronomy, Heidelberg
“This textbook fills a real void. It is an excellent overview of the broad range of tools, technologies, and principles that modern observational astronomers use to address the major frontier areas of research. In our era of multi-waveband “panchromatic” observations, this book will be a valuable resource for educating graduate students and an excellent reference for senior observational astronomers who are venturing into new territory.” – Timothy Heckman, The Dr. A. Hermann Pfund Professor of Physics & Astronomy, Johns Hopkins University
“This excellent textbook has the range and depth to provide a great introduction to the techniques of modern astronomy for senior undergraduates or physics graduates starting an observational Ph.D. with data from one of the major ground or space observatories. From traditional telescopes to gravitational wave detection it brings together in one reference the barrage of approaches we now use to unravel the secrets of the Universe.” – Professor Gillian Wright, STFC UK Astronomy Technology Centre
Book Description
A one-stop guide to astronomical instrumentation and data acquisition, with a focus on the underlying principles behind each instrument’s operation.
Book Description
Covering the full range of modern instrumentation from radio to gamma ray, this is a comprehensive guide to state-of-the-art astronomical measurements and data acquisition. With an emphasis on underlying principles, detailed explanations allow readers to apply their knowledge to new developments and to understand how instruments of all types operate.
About the Author
George H. Rieke is Regents Professor of Astronomy and Planetary Sciences at the University of Arizona, Deputy Director of Steward Observatory, and a member of the US National Academy of Sciences. Professor Rieke is Science Lead for the Mid-Infrared Instrument (MIRI) for NASA’s James Webb Space Telescope and was Principal Investigator of the Multiband Imaging Photometer for Spitzer (MIPS). He has also led construction of a broad range of groundbased instruments and has taught core graduate courses on instrumentation throughout his career.
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