Quantum Computing with Octonions
Copyright policy )Quantum Computing with Octonions
There are two schools of "measurement-only quantum computation". The first ([11]) using prepared entanglement (cluster states) and the second ([4]) using collections of anyons, which according to how they were produced, also have an entanglement pattern. We abstract the common principle behind both approaches and find the notion of a graph or even continuous family of equiangular projections. This notion is the leading character in the paper. The largest continuous family, in a sense made precise in Corollary 4.2, is associated with the octonions and this example leads to a universal computational scheme. Adiabatic quantum computation also fits into this rubric as a limiting case: nearby projections are nearly equiangular, so as a gapped ground state space is slowly varied the corrections to unitarity are small.
Added some new results in section 4
- University of California, Santa Barbara United States
- Microsoft (United States) United States
- University of California, San Francisco United States
Operator algebra methods applied to problems in quantum theory, Quantum Physics, FOS: Physical sciences, Quantum algorithms and complexity in the theory of computing, equiangular projections, Mathematical Physics (math-ph), quantum computing, octonions, Quantum computation, Quantum coherence, entanglement, quantum correlations, Anyons, Quaternion and other division algebras: arithmetic, zeta functions, measurement, Quantum Physics (quant-ph), Mathematical Physics
Operator algebra methods applied to problems in quantum theory, Quantum Physics, FOS: Physical sciences, Quantum algorithms and complexity in the theory of computing, equiangular projections, Mathematical Physics (math-ph), quantum computing, octonions, Quantum computation, Quantum coherence, entanglement, quantum correlations, Anyons, Quaternion and other division algebras: arithmetic, zeta functions, measurement, Quantum Physics (quant-ph), Mathematical Physics
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