![]() However, quantum computers are notoriously difficult to control, due to their ubiquitous yet inevitable interaction with their environment, together with imperfect manipulations that constitute the algorithm. Quantum computers can tackle classically intractable problems and efficiently simulate many-body quantum systems . ![]() Quantum error-correcting code, superconducting qubit, five-qubit code, error detection, logical operation INTRODUCTION Our work demonstrates each key aspect of the code and verifies the viability of experimental realisation of quantum error-correcting codes with superconducting qubits. Finally, we realise the decoding circuit and recover the input state with an overall fidelity of |$74.5(6)\%$|, in total with 92 gates. ![]() We further implement logical Pauli operations with a fidelity of |$97.2(2)\%$| within the code space. Then, the arbitrary single-qubit errors introduced manually are identified by measuring the stabilisers. The encoded states are prepared with an average fidelity of |$57.1(3)\%$| while with a high fidelity of |$98.6(1)\%$| in the code space. In the experiment, having optimised the encoding circuit, we employ an array of superconducting qubits to realise the code for several typical logical states including the magic state, an indispensable resource for realising non-Clifford gates. To address this challenge, we experimentally realise the code, the so-called smallest perfect code that permits corrections of generic single-qubit errors. Despite tremendous experimental efforts in the study of quantum error correction, to date, there has been no demonstration in the realisation of universal quantum error-correcting code, with the subsequent verification of all key features including the identification of an arbitrary physical error, the capability for transversal manipulation of the logical state and state decoding. Quantum error correction is an essential ingredient for universal quantum computing.
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