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Optimization by decoded quantum interferometry

Decoded quantum interferometry is a quantum algorithm that uses the quantum Fourier transform to reduce optimization problems to decoding problems.

Stephen P. Jordan
Noah Shutty
Ryan Babbush
ResearchOpen Access22 Oct 2025
Nature

Volume: 646, P: 831-836
Demonstration of dynamic surface codes

Typical quantum error correcting codes assign fixed roles to the underlying physical qubits. Now the performance benefits of alternative, dynamic error correction schemes have been demonstrated on a superconducting quantum processor.

Alec Eickbusch
Matt McEwen
Alexis Morvan
ResearchOpen Access17 Oct 2025
Nature Physics

Volume: 21, P: 1994-2001
Observation of constructive interference at the edge of quantum ergodicity

Experimental measurements of high-order out-of-time-order correlators on a superconducting quantum processor show that these correlators remain highly sensitive to the quantum many-body dynamics in quantum computers at long timescales.

Dmitry A. Abanin
Rajeev Acharya
Nicholas Zobrist
ResearchOpen Access22 Oct 2025
Nature

Volume: 646, P: 825-830
Overcoming leakage in quantum error correction

Physical realizations of qubits are often vulnerable to leakage errors, where the system ends up outside the basis used to store quantum information. A leakage removal protocol can suppress the impact of leakage on quantum error-correcting codes.

Kevin C. Miao
Matt McEwen
Yu Chen
ResearchOpen Access05 Oct 2023
Nature Physics

Volume: 19, P: 1780-1786
Quantum error correction below the surface code threshold

Two below-threshold surface code memories on superconducting processors markedly reduce logical error rates, achieving high efficiency and real-time decoding, indicating potential for practical large-scale fault-tolerant quantum algorithms.

Rajeev Acharya
Dmitry A. Abanin
Nicholas Zobrist
ResearchOpen Access09 Dec 2024
Nature

Volume: 638, P: 920-926