Novel Probes of Gravity and Dark Energy
The discovery of cosmic acceleration has stimulated theorists to consider dark energy or modifications to Einstein's General Relativity as possible explanations. The last decade has seen advances in theories that go beyond smooth dark energy -- modified gravity and interactions of dark energy....
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| creator | Jain, Bhuvnesh Austin, Joyce Thompson, Rodger Upadhye, Amol Battat, James Brax, Philippe Davis, Anne-Christine de Rham, Claudia Dodelson, Scott Erickcek, Adrienne Gabadadze, Gregory Hu, Wayne Lam, Hui Huterer, Dragan Kamionkowski, Marc Khoury, Justin Koyama, Kazuya Li, Baojiu Linder, Eric Schmidt, Fabian Scoccimarro, Roman Starkman, Glenn Stubbs, Chris Takada, Masahiro Tolley, Andrew Trodden, Mark Uzan, Jean-Philippe Vinu Vikram Weltman, Amanda Wyman, Mark Zaritsky, Dennis Zhao, Gongbo |
| description | The discovery of cosmic acceleration has stimulated theorists to consider dark energy or modifications to Einstein's General Relativity as possible explanations. The last decade has seen advances in theories that go beyond smooth dark energy -- modified gravity and interactions of dark energy. While the theoretical terrain is being actively explored, the generic presence of fifth forces and dark sector couplings suggests a set of distinct observational signatures. This report focuses on observations that differ from the conventional probes that map the expansion history or large-scale structure. Examples of such novel probes are: detection of scalar fields via lab experiments, tests of modified gravity using stars and galaxies in the nearby universe, comparison of lensing and dynamical masses of galaxies and clusters, and the measurements of fundamental constants at high redshift. The observational expertise involved is very broad as it spans laboratory experiments, high resolution astronomical imaging and spectroscopy and radio observations. In the coming decade, searches for these effects have the potential for discovering fundamental new physics. We discuss how the searches can be carried out using experiments that are already under way or with modest adaptations of existing telescopes or planned experiments. The accompanying paper on the Growth of Cosmic Structure describes complementary tests of gravity with observations of large-scale structure. |
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The last decade has seen advances in theories that go beyond smooth dark energy -- modified gravity and interactions of dark energy. While the theoretical terrain is being actively explored, the generic presence of fifth forces and dark sector couplings suggests a set of distinct observational signatures. This report focuses on observations that differ from the conventional probes that map the expansion history or large-scale structure. Examples of such novel probes are: detection of scalar fields via lab experiments, tests of modified gravity using stars and galaxies in the nearby universe, comparison of lensing and dynamical masses of galaxies and clusters, and the measurements of fundamental constants at high redshift. The observational expertise involved is very broad as it spans laboratory experiments, high resolution astronomical imaging and spectroscopy and radio observations. In the coming decade, searches for these effects have the potential for discovering fundamental new physics. We discuss how the searches can be carried out using experiments that are already under way or with modest adaptations of existing telescopes or planned experiments. The accompanying paper on the Growth of Cosmic Structure describes complementary tests of gravity with observations of large-scale structure.</description><identifier>EISSN: 2331-8422</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Acceleration ; Big Bang theory ; Celestial bodies ; Couplings ; Dark energy ; Experiments ; Galactic clusters ; Galaxies ; Gravitation ; Gravity ; Image resolution ; Large scale structure of the universe ; Radio astronomy ; Radio observation ; Red shift ; Relativity ; Searching ; Stars & galaxies ; Telescopes ; Universe</subject><ispartof>arXiv.org, 2013-09</ispartof><rights>2013. 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| subjects | Acceleration Big Bang theory Celestial bodies Couplings Dark energy Experiments Galactic clusters Galaxies Gravitation Gravity Image resolution Large scale structure of the universe Radio astronomy Radio observation Red shift Relativity Searching Stars & galaxies Telescopes Universe |
| title | Novel Probes of Gravity and Dark Energy |
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