Experimental Search for Quantum Gravity

Experimental Search for Quantum Gravity

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Description

This book summarizes recent developments in the research area of quantum gravity phenomenology. A series of short and nontechnical essays lays out the prospects of various experimental possibilities and their current status. Finding observational evidence for the quantization of space-time was long thought impossible. In the last decade however, new experimental design and technological advances have changed the research landscape and opened new perspectives on quantum gravity. Formerly dominated by purely theoretical constructions, quantum gravity now has a lively phenomenology to offer. From high precision measurements using macroscopic quantum oscillators to new analysis methods of the cosmic microwave background, no stone is being left unturned in the experimental search for quantum gravity.



This book sheds new light on the connection of astroparticle physics with the quantum gravity problem. Gravitational waves and their detection are covered. It illustrates findings from the interconnection between general relativity, black holes and Planck stars. Finally, the return on investment in quantum-gravitation research is illuminated. The book is intended for graduate students and researchers entering the field.
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Product details

  • Hardback | 120 pages
  • 155 x 235 x 9.65mm | 395g
  • Cham, Switzerland
  • English
  • 1st ed. 2018
  • 19 Illustrations, color; 5 Illustrations, black and white; VIII, 120 p. 24 illus., 19 illus. in color.
  • 3319645366
  • 9783319645360

Back cover copy

This book summarizes recent developments in the research area of quantum gravity phenomenology. A series of short and nontechnical essays lays out the prospects of various experimental possibilities and their current status. Finding observational evidence for the quantization of space-time was long thought impossible. In the last decade however, new experimental design and technological advances have changed the research landscape and opened new perspectives on quantum gravity. Formerly dominated by purely theoretical constructions, quantum gravity now has a lively phenomenology to offer. From high precision measurements using macroscopic quantum oscillators to new analysis methods of the cosmic microwave background, no stone is being left unturned in the experimental search for quantum gravity.



This book sheds new light on the connection of astroparticle physics with the quantum gravity problem. Gravitational waves and their detection are covered. It illustrates findings from the interconnection between general relativity, black holes and Planck stars. Finally, the return on investment in quantum-gravitation research is illuminated. The book is intended for graduate students and researchers entering the field.
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Table of contents

Preface (S. Hossenfelder).- Astroparticle physics connections to the quantum gravity problem (M. Lorenz).- The search for a tiny hint from quantum gravity in the cosmic relic radiation (D. Brizuela, M. Kraemer).- Superfluid Helium: the Volovik Lessons (T. Lappe).- On the Paradigms of Quantum Gravity 2016 (F. Mueller).- On the Measurement of the Speed of Light in a Cavity (F. Schneiter).- Neutrino: the elusive particle bringing us closer to the world of quantum gravity (G. D'Amico).- Gravitational Waves: The "Sound" Of The Universe (J. M. Carmona).- Planck Star Phenomenology (A. M. Eller).- Gravitational measurements at small distances (H. Schmidt).- Return on investment in quantum-gravity research (G. Amelino-Camelia).- Semiclassical Gravity: A testable theory of Quantum Gravity (S. Scully).- Quantum gravity deformations (A. M. Frassino).- General Relativity, Black Holes and Planck Stars (M. Trudu).- Spacetime Structure: Analogy in Condensed Matter & Quantum Information (M. Seltmann).- Experimental Search for Quantum Gravity using Cosmology (M. Bischoff).- The Cosmological Constant and its Problems: A Review of Gravitational Aether (M. F. Wondrak).
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About Sabine Hossenfelder

Dr. Sabine Hossenfelder is a research fellow at the Frankfurt Institute for Advanced Studies. Her research focuses on topics ranging from the physics of black holes to cosmology to the foundations of quantum mechanics. She devoted more than ten years to investigate the question where to best search for experimental evidence of quantum gravity. She worked at Nordita (Nordic Institute for Theoretical Physics), Stockholm, Sweden; the Perimeter Institute, Waterloo, Ontario, Canada; the University of California, Santa Barbara, USA and at the University of Arizona, USA.

Contributing Authors:
Matthias Lorenz, Commissariat a l'energie atomique CEA Saclay, France
David Brizuela, Manuel Kraemer, University of the Basque Country, Spain
Tim Lappe, University of Bonn, Germany
Fabian Mueller, Institute of Mathematics, University Frankfurt, Germany
Fabienne Schneiter, University Tubingen, Germany
Giacomo D'Amico, Universita di Roma La Sapienza, Italy
Jose Manuel Carmona, Universidad de Zaragoza, Spain
Alexander Maximilian Eller, Darmstadt University of Technology, GSI Helmholtz Center, Germany
Helena Schmidt, German National Metrologic Institute (PTB), Berlin, Germany
Giovanni Amelino-Camelia, Dipt Fisica, Sapienza University of Rome, Italy
Sabina Scully, Australian National University, Australia
Antonia Micol Frassino, Frankfurt Institute for Advanced Studies (FIAS) andUniversity Frankfurt, Germany
Matteo Trudu, University of Cagliari, Italy
Martin Seltmann, Technical University (TU) Munich, Germany
Manon Bischoff, University Mainz, Germany
Michael Florian Wondrak, FIAS, Frankfurt, Germany
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