Tag: Schwarzschild–de Sitter
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Multi-Horizon Black Holes Enable 2-Qubit Modelling, Unlocking Gravitational Physics
New Pathways in Quantum-Gravity Modelling In a field long defined by theoretical debates and experimental dreams, researchers are turning to a striking new idea: multi-horizon black holes could serve as practical laboratories for simulating simple quantum systems. At the center of this development are Schwarzschild–de Sitter black holes, cosmological solutions that feature multiple horizons arising…
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Multi-Horizon Black Holes Open Path to 2-Qubit System Modelling in Gravitational Physics
New Frontiers at the Gravity–Quantum Interface Researchers are turning to the complex spacetime structure of multi-horizon black holes to explore a novel approach to quantum information in gravitational settings. In particular, Schwarzschild-de Sitter (SdS) black holes, which feature both a black hole horizon and a cosmological horizon, provide a unique laboratory for simulating and understanding…
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Multi-Horizon Black Holes: A New Path to 2-Qubit Modelling and Gravitational Physics
Unlocking Gravity’s Quantum Door with Multi-Horizon Black Holes In the quest to unify gravity with quantum mechanics, researchers have turned to some of the universe’s most enigmatic objects: multi-horizon black holes. A growing body of work focusing on Schwarzschild–de Sitter spacetimes suggests that these cosmic laboratories may enable practical modelling of quantum systems that simulate…