Abstract
The seven-qubit quantum error-correcting code originally proposed by Steane is one of the best known quantum codes. The Steane code has a desirable property that most basic operations can be performed easily in a fault-tolerant manner. A major obstacle to fault-tolerant quantum computation with the Steane code is fault-tolerant preparation of encoded states, which requires large computational resources. Here we propose efficient state preparation methods for zero and magic states encoded with the Steane code, where the zero state is one of the computational basis states and the magic state allows us to achieve universality in fault-tolerant quantum computation. The methods minimize resource overheads for the fault-tolerant state preparation, and therefore reduce necessary resources for quantum computation with the Steane code. Thus, the present results will open a new possibility for efficient fault-tolerant quantum computation.
Highlights
The seven-qubit quantum error-correcting code originally proposed by Steane is one of the best known quantum codes
Steane’s seven-qubit code[10] is one of the best known quantum codes. (The definition and basic properties of the Steane code are given in Methods.) This code has a good property that the so-called Clifford gates and the computational basis measurement can be implemented transversally[1], where the transversal implementation guarantees fault tolerance automatically
We refer to the nonstabilizer states as the magic states, which were named after magic state distillation[11]
Summary
The seven-qubit quantum error-correcting code originally proposed by Steane is one of the best known quantum codes. The fault-tolerant preparation of these states encoded with the Steane code requires complicated processes and large resource overheads[1,6,12,13,14]. To prepare the zero state 0 and the magic state H encoded with the Steane code in a fault-tolerant manner, we use one and eighteen physical ancilla qubits, respectively.
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