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Explore the intricate connections between holographic principles and celestial phenomena in this 58-minute conference talk that delves into the mathematical frameworks underlying holographic duality as applied to astrophysical systems. Examine how holographic encoding mechanisms operate in cosmological contexts, investigating the relationship between boundary theories and bulk gravitational dynamics in celestial mechanics. Analyze the theoretical foundations of celestial holography, including its applications to black hole physics, cosmological horizons, and the information paradox. Discover how holographic correspondence principles can be extended to understand the structure of spacetime at cosmic scales, with particular emphasis on the encoding of gravitational information on celestial spheres. Learn about cutting-edge research methodologies for decoding holographic information in astronomical observations and theoretical predictions. Gain insights into the mathematical tools required for celestial holographic analysis, including conformal field theory techniques, asymptotic symmetries, and scattering amplitudes in curved spacetime backgrounds.
