GRAVITATIONAL WAVES | Buch | 978-1-68173-717-1 | sack.de

Buch, Englisch, 173 Seiten, Hardback, Format (B × H): 191 mm x 235 mm

Reihe: Synthesis Lectures on Wave Phenomena in the Physical Sciences

GRAVITATIONAL WAVES


Buch, Englisch, 173 Seiten, Hardback, Format (B × H): 191 mm x 235 mm

Reihe: Synthesis Lectures on Wave Phenomena in the Physical Sciences

ISBN: 978-1-68173-717-1
Verlag: MORGAN & CLAYPOOL

Gravitational wave (GW) research is one of the most rapidly developing subfields in experimental physics today.

The theoretical underpinnings of this endeavor trace to the discussions of the "speed of gravity" in the 18th century, but the modern understanding of this phenomena was not realized until the middle of the 20th century. The minuteness of the gravitational force means that the effects associated with GWs are vanishingly small. To detect the GWs produced by the most enormously energetic sources in the universe, humans had to build devices capable of measuring the tiniest amounts of forces and displacements.This book delves into the exploration of the basics of the theory of GW, their generation, propagation, and detection by various methods. It does not delve into the depths of Einstein's General Relativity, but instead discusses successively closer approximations to the full theory. As a result, the book should be accessible to an ambitious undergraduate student majoring in physics or engineering. It could be read concurrently with standard junior-level textbooks in classical mechanics, and electromagnetic theory.
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Weitere Infos & Material

- Introduction
- The Wave Equation
- Waves of What?
- Plane Gravitational Waves
- Overview
- Static Sources and Static Multipoles
- Waves from Retarded Potentials
- Magnetism and Gravito-Magnetism
- Tidal Field as Gravielectric Field
- Frame-Drag Field as Gravimagnetic Field
- Gravitational Waves in Terms of Tidal and Frame-Drag Fields
- Overview of General Relativity
- Gravitational Waves and Einstein Equations
- Overview
- Black Holes
- Neutron Stars
- Early Universe
- Overview
- What Should We Measure?
- The Signals
- Evidence from Pulsars
- Noises
- Mechanical Detection
- Interferometry
- Terrestrial Interferometric Detection
- Space-Based Detection
- Atomic Gravitational Wave Detectors
- Pulsar Timing Array
- Polarization of Cosmic Microwave Background
- Bibliography
- Author's Biography

David M. Feldbaum received his Ph.D. in experimental physics from the University of Michigan in 2003, working with trapped atoms. As a postdoctoral researcher, he spent several years at Los Alamos National Laboratory working on trapping radioactive atoms, before joining the Laser Interferometer Gravitational Observatory in Louisiana as a part of the University of Florida research group. He joined the faculty of the Southeastern Louisiana University in 2014.

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