Book contents
- Star Noise
- Star Noise
- Copyright page
- Epigraph
- Contents
- Foreword
- Preface
- Introduction
- 1 A New Window on the Universe
- 2 Radio Emission from the Sun and Stars
- 3 Radio Galaxies
- 4 Quasars and AGN
- 5 Radio Astronomy, Cosmology, and Cosmic Evolution
- 6 The Cosmic Microwave Background
- 7 Interplanetary Scintillations, Pulsars, Neutron Stars, and Fast Radio Bursts
- 8 Interstellar Atoms, Molecules, and Cosmic Masers
- 9 Radio Studies of the Moon and Planets
- 10 Testing Gravity
- 11 If You Build It, They Will Come
- 12 Expecting the Unexpected
- Notes
- Glossary: Abbreviations and Acronyms
- Journal Abbreviations Used
- Bibliography
- Suggested Reading
- Index
6 - The Cosmic Microwave Background
Published online by Cambridge University Press: 04 May 2023
- Star Noise
- Star Noise
- Copyright page
- Epigraph
- Contents
- Foreword
- Preface
- Introduction
- 1 A New Window on the Universe
- 2 Radio Emission from the Sun and Stars
- 3 Radio Galaxies
- 4 Quasars and AGN
- 5 Radio Astronomy, Cosmology, and Cosmic Evolution
- 6 The Cosmic Microwave Background
- 7 Interplanetary Scintillations, Pulsars, Neutron Stars, and Fast Radio Bursts
- 8 Interstellar Atoms, Molecules, and Cosmic Masers
- 9 Radio Studies of the Moon and Planets
- 10 Testing Gravity
- 11 If You Build It, They Will Come
- 12 Expecting the Unexpected
- Notes
- Glossary: Abbreviations and Acronyms
- Journal Abbreviations Used
- Bibliography
- Suggested Reading
- Index
Summary
The existence of a Cosmic Microwave Background was theoretically predicted by George Gamow and his associates, but played no role in the accidental discovery of the 2.7 degree cosmic microwave background radiation by Penzias and Wilson while they were testing a new type of satellite communications antenna at the Bell Telephone Laboratories in Holmdel, NJ. An earlier measurement of the cosmic microwave background at Bell Labs went unnoticed except by Russian scientists, who misunderstood the paper to be reporting a negative result. Meanwhile, not far away, Robert Dicke and his colleagues at Princeton University were building a radiometer to verify Dicke’s prediction that it might be possible to detect the microwave remnants of the big-bang. But they were beaten by Penzias and Wilson’s serendipitous Nobel Prize winning discovery that led to the final demise of the steady-state theory. An even earlier measurement of optical absorption lines by interstellar cyanogen gave the first clues to the existence of a cosmic background radiation, but its meaning was not recognized until after the 1965 experimental discovery of the microwave background at Bell Labs.
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- Star Noise: Discovering the Radio Universe , pp. 143 - 160Publisher: Cambridge University PressPrint publication year: 2023