The 26 Year Old Prodigy Reverse Engineering UFOs | Deep Prasad

This episode explores the intersection of quantum computing and the study of Unidentified Aerial Phenomena (UAPs), or UFOs. The interview features Deep Prasad, a 26-year-old entrepreneur who has secured $15 million in funding for his quantum computing startup, Quantum Generative Materials, with the goal of reverse-engineering UAP materials. Against this backdrop, the discussion delves into the Pentagon's documented observations of UAPs, highlighting five consistent properties—such as instantaneous acceleration and hypersonic velocity without sonic booms—that defy conventional physics. More significantly, Prasad argues that these properties suggest UAPs exhibit macroscopic quantum behavior, a concept usually associated with subatomic particles. Prasad explains his approach, emphasizing the potential of quantum computers to solve the many-body Schrödinger equation, a complex calculation crucial for understanding material properties. He posits that classical computers lack the capacity to handle this equation at scale, but quantum computers, by leveraging quantum effects rather than engineering around them, could simulate metamaterials with UAP-like properties. For instance, he draws a parallel to the discovery of superconductivity in 1911, which was initially inexplicable until quantum mechanics provided an explanation. This analogy underscores his belief that UAPs might represent materials with emergent quantum properties beyond our current understanding. As the discussion pivots to the implications of his work, Prasad touches upon the societal and scientific ramifications of his research. He discusses the potential for quantum sensors to revolutionize fields like medicine and navigation, citing the development of dark ice magnetometers as an example. Furthermore, he speculates on the broader implications of UAPs, suggesting a possible connection to cellular automata and the evolution of complex systems. In conclusion, the episode highlights the potential for quantum computing to unlock new scientific frontiers, while simultaneously challenging our understanding of the universe and our place within it. What this means for our understanding of physics, materials science, and even the possibility of extraterrestrial life remains a compelling question.