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| Format: | Recurso digital |
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Zenodo
2025
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| Online dostop: | https://doi.org/10.5281/zenodo.15036101 |
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- <h3><strong>Zenodo Description for</strong></h3> <p><strong>Multiverse Theories in Light of Quantum Gravity: Toward a Unified Framework of Cosmic Landscapes</strong></p> <h3><strong>Abstract:</strong></h3> <p>The idea of a <strong>multiverse</strong>—a vast ensemble of universes beyond our observable cosmos—has gained increasing attention in theoretical physics. While originally proposed in the context of <strong>inflationary cosmology, string theory landscapes, and quantum mechanics interpretations</strong>, modern developments in <strong>quantum gravity</strong> provide new perspectives on the physical viability of multiverse models. This paper explores whether <strong>quantum gravity effects, holographic principles, and higher-dimensional theories</strong> can offer a <strong>unified framework for understanding the cosmic landscape and its potential testable signatures</strong>.</p> <p>We analyze different <strong>multiverse scenarios</strong>, including the <strong>eternal inflationary multiverse, string theory’s landscape of vacua, quantum many-worlds interpretations, and holographic multiverse proposals</strong>. Using insights from <strong>loop quantum gravity, AdS/CFT correspondence, and non-perturbative quantum field theory</strong>, we investigate whether multiverse predictions could manifest in <strong>cosmological background fluctuations, black hole information paradox resolutions, or modifications to standard inflationary predictions</strong>.</p> <h3><strong>Key Highlights:</strong></h3> <ul> <li><strong>Comparison of different multiverse theories</strong> (inflationary, string landscape, quantum many-worlds).</li> <li><strong>Role of quantum gravity and extra dimensions</strong> in defining the structure of the multiverse.</li> <li><strong>Holography and entanglement entropy</strong> as potential tools for describing multiple universes.</li> <li><strong>Exploring possible observational signatures</strong>, including effects on cosmic microwave background anisotropies and black hole entropy bounds.</li> <li><strong>Implications for fundamental physics, spacetime emergence, and the nature of reality.</strong></li> </ul> <p>By integrating <strong>quantum gravity, string theory, and modern cosmology</strong>, this work provides a <strong>theoretical foundation for assessing multiverse hypotheses</strong> and explores whether future experiments could <strong>distinguish between competing multiverse models</strong>.</p> <p><strong>Keywords:</strong> <em>Multiverse, quantum gravity, string theory, inflationary cosmology, AdS/CFT, cosmic landscapes, holography, quantum many-worlds, black hole information paradox, fundamental physics.</em></p>