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Quantum Information: Exploring the Foundations and Frontiers

Join us on a journey through Quantum Information to discover the fundamental principles, key figures, and modern applications in physics. Learn about groundbreaking topics, study materials, and communication methods. Prepare yourself for an engaging exploration of the quantum realm.

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Quantum Information: Exploring the Foundations and Frontiers

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  1. Quantum Information (QI) PHSCS 513R, Fall 2011 Tue-Thu 9:00-9:50 a.m. 261 ROTC http://www.physics.byu.edu/faculty/vanhuele/Teaching/five/513QI-11/outline.htm

  2. Introductions Who am I? Why am I here? What do I hope to achieve in 513R? What special skills do I have?

  3. Quantum – What does that mean?

  4. Perspectives: The road to QI Classical Physics…Galileo Quantum Physics…Planck Classical Computation…Turing Classical Information…Shannon Quantum computation…Feynman Quantum measurement…von Neumann Quantum Foundations… (Einstein &) J.S. Bell Entanglement…Schroedinger

  5. Special Topics in Physics (PHSCS 222 prerequisite) What are frontier topics in physics? Do they impact QI? Are they impacted by QI?

  6. How do I pass this 513R class? What will we do? CP, HW, IP, MT, F How do you communicate? Sources for QI? (Linear Algebra prerequisite) What is Linear Algebra?

  7. Sources: pop, intro, grad • David Deutsch: The fabric of reality • Louisa Gilder: Quantum Entanglement • Robert Scully: The Demon and the Quantum • Anton Zeilinger: Dance of the Photons • Arthur Greenstein: The Quantum Challenge • Sagawa and Yoshida: Fundamentals of QI • Valerio Scarani: Six Quantum Pieces • VlatkoVedral: Introduction to QI • GennnaroAuletta: Foundation and Interpretation of Quantum Mechanics • Benenti, Casati, and Strini: Principles of Q Computation and Information • Eugen Merzbacher: Quantum Mechanics • Nielsen and Chuang: Q Computation and QI • Maximilian Schlosshauer: Decoherence • Mark Silverman: Quantum Superposition

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