Quantum gravity is concerned with unifying Einstein's general theory of relativity with quantum theory into a single theoretical framework. At Perimeter Institute, researchers are actively pursuing a number of approaches to this problem including loop quantum gravity, spin foam models, asymptotic safety, emergent gravity, string theory, and causal set theory. We are also particularly interested in experimental implications of these different proposals. As the aim is a unification of the laws of physics into a single theory, the search for quantum gravity overlaps with other areas such as cosmology, particle physics and the foundations of quantum theory.
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Quantum limits to measuring spacetime geometry
Seth Lloyd Massachusetts Institute of Technology (MIT) - Center for Extreme Quantum Information Theory (xQIT)
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Quantum gravity at astrophysical distances
Martin Reuter Johannes Gutenberg University Mainz
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Numerical Analysis of a Black String Horizon
David Garfinkle Oakland University
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QCD and the Fabric of Space
James Bjorken Stanford University
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Quasi-normal modes for black-holes with generic singularities
Saurya Das University of Lethbridge
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Semi Classical Quantization of Space Times with Event Horizons
Arundhati Dasgupta University of Lethbridge
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Classical limit of quantum gravity in an accelerating universe.
Frederic Schuller University of Twente
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Alice falls into a black hole: Entanglement in non-inertial frames
Ivette Fuentes University of Southampton