Affiliation:
1. Department of Physics and Computer Science, Dayalbagh Educational Institute, Dayalbagh, Agra 282005, India
Abstract
The ternary Golay code—one of the first and most beautiful classical error-correcting codes discovered—naturally gives rise to an 11-qutrit quantum error correcting code. We apply this code to magic state distillation, a leading approach to fault-tolerant quantum computing. We find that the 11-qutrit Golay code can distil the ‘most magic’ qutrit state—an eigenstate of the qutrit Fourier transform known as the
strange state
—with cubic error suppression and a remarkably high threshold. It also distils the ‘second-most magic’ qutrit state, the Norell state, with quadratic error suppression and an equally high threshold to depolarizing noise.
Funder
Science and Engineering Research Board
Subject
General Physics and Astronomy,General Engineering,General Mathematics
Reference49 articles.
1. Notes on digital coding;Golay M;Proc. IRE,1949
2. On the uniqueness of the Golay codes
3. At the Dawn of the Theory of Codes
4. Overhead and noise threshold of fault-tolerant quantum error correction
5. Fault-tolerant ancilla preparation and noise threshold lower bounds for the 23-qubit Golay code;Paetznick A;Quantum Inf. Comput.,2012
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