Quantum Computation (Physics 347) - Fundamental concepts of Quantum Computation and Quantum Algorithms. The course is aimed at conveying working knowledge of the principles of quantum mechanics towards the understanding of quantum information processing and quantum computation. This course will cover the fundamentals of quantum physics in its phenomenological, theoretical, and experimental basis. Lab tours and discussions with local industrial partners will give students real-world experience with the burgeoning quantum industry in the Boston area, with an emphasis on quantum optics and superconducting qubits.įundamentals of Quantum Physics (Physics 247) - Basic ideas and mathematics of Quantum Mechanics. The last course will cover quantum simulation, give students a hands-on opportunity to use cloud-based quantum computers, and feature experimental demonstrations of quantum mechanics. The sequence of courses will be: Fundamentals of Quantum Physics, Quantum Computation, Physics and Information, and Quantum Science Applications. All the mathematical tools beyond pre-Calculus necessary to understand quantum mechanics are introduced during the courses. The Quantum Information Certificate program consists of four courses that form a self-consistent introduction to the notions, tools, and problems in quantum information science. However, entrepreneurs, computer scientists, technologists, engineers, politicians, they all need a basic training in quantum technologies without having to take a PhD in Physics. Until now, quantum information science is reserved to Physics graduate students. There is a very strong need of education in quantum science and technology for workforce development. In the future, quantum technologies and quantum information science will revolutionize the industry, the market, ways of working and creating, and will shape society. The Quantum Industrial Revolution is upon us. Variations on the threshold theorem (e.g.Home › Academics › College of Science and Mathematics › Physics Department › Quantum Information Certificate Quantum Information Certificate.Comparison of thresholds from different codes.If you want a subject not on this list, let me know and we can discuss if it is acceptable. Length of presentation: roughly 20 minutes (subject to change, depending on the number of projects) Possible paper topics Then one of us will discuss with you which research papers (usually 1-3, depending on size) to cover.ĭue: March 29, written term paper plus a presentation to the class I recommend that students tell one of us the subject of their final project by Mar. Also, please do not distribute copies of the book outside the class. Please send any comments you may have on it to me (DG). The textbook (a work in progress), Surviving as a Quantum Computer in a Classical World, will be available in class. Shor, Steane, and Knill quantum error correction.Bounds on quantum error-correcting codes.Scrambling and Hayden-Preskill ( PIRSA:18030011).Bravyi-Konig bound, locally definable states ( PIRSA:18030010).Topological phases, color codes ( PIRSA:18030009).
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