All-Microwave Leakage Reduction Units for Quantum Error Correction with Superconducting Transmon Qubits

J.M. Ferreira Marques; H.A.S. Ali; B. M. Varbanov; M. Finkel; H. M. Veen; S. L.M. Van Der Meer; S. Valles-Sanclemente; N. Muthusubramanian; M. Beekman; N. Haider; B. M. Terhal; L. Dicarlo

doi:10.1103/PhysRevLett.130.250602

All-Microwave Leakage Reduction Units for Quantum Error Correction with Superconducting Transmon Qubits

J.M. Ferreira Marques, H.A.S. Ali, B. M. Varbanov, M. Finkel, H. M. Veen, S. L.M. Van Der Meer, S. Valles-Sanclemente, N. Muthusubramanian, M. Beekman, N. Haider, B. M. Terhal, L. Dicarlo^*

^*Corresponding author for this work

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Abstract

Minimizing leakage from computational states is a challenge when using many-level systems like superconducting quantum circuits as qubits. We realize and extend the quantum-hardware-efficient, all-microwave leakage reduction unit (LRU) for transmons in a circuit QED architecture proposed by Battistel et al. This LRU effectively reduces leakage in the second- and third-excited transmon states with up to 99% efficacy in 220 ns, with minimum impact on the qubit subspace. As a first application in the context of quantum error correction, we show how multiple simultaneous LRUs can reduce the error detection rate and suppress leakage buildup within 1% in data and ancilla qubits over 50 cycles of a weight-2 stabilizer measurement.

Original language	English
Article number	250602
Number of pages	6
Journal	Physical review letters
Volume	130
Issue number	25
DOIs	https://doi.org/10.1103/PhysRevLett.130.250602
Publication status	Published - 2023

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Ferreira Marques, J. M., Ali, H. A. S., Varbanov, B. M., Finkel, M., Veen, H. M., Van Der Meer, S. L. M., Valles-Sanclemente, S., Muthusubramanian, N., Beekman, M., Haider, N., Terhal, B. M., & Dicarlo, L. (2023). All-Microwave Leakage Reduction Units for Quantum Error Correction with Superconducting Transmon Qubits. Physical review letters, 130(25), Article 250602. https://doi.org/10.1103/PhysRevLett.130.250602

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title = "All-Microwave Leakage Reduction Units for Quantum Error Correction with Superconducting Transmon Qubits",

abstract = "Minimizing leakage from computational states is a challenge when using many-level systems like superconducting quantum circuits as qubits. We realize and extend the quantum-hardware-efficient, all-microwave leakage reduction unit (LRU) for transmons in a circuit QED architecture proposed by Battistel et al. This LRU effectively reduces leakage in the second- and third-excited transmon states with up to 99% efficacy in 220 ns, with minimum impact on the qubit subspace. As a first application in the context of quantum error correction, we show how multiple simultaneous LRUs can reduce the error detection rate and suppress leakage buildup within 1% in data and ancilla qubits over 50 cycles of a weight-2 stabilizer measurement. ",

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Ferreira Marques, JM, Ali, HAS, Varbanov, BM, Finkel, M , Veen, HM , Van Der Meer, SLM , Valles-Sanclemente, S, Muthusubramanian, N, Beekman, M , Haider, N , Terhal, BM & Dicarlo, L 2023, 'All-Microwave Leakage Reduction Units for Quantum Error Correction with Superconducting Transmon Qubits', Physical review letters, vol. 130, no. 25, 250602. https://doi.org/10.1103/PhysRevLett.130.250602

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T1 - All-Microwave Leakage Reduction Units for Quantum Error Correction with Superconducting Transmon Qubits

AU - Ferreira Marques, J.M.

AU - Ali, H.A.S.

AU - Varbanov, B. M.

AU - Finkel, M.

AU - Veen, H. M.

AU - Van Der Meer, S. L.M.

AU - Valles-Sanclemente, S.

AU - Muthusubramanian, N.

AU - Beekman, M.

AU - Haider, N.

AU - Terhal, B. M.

AU - Dicarlo, L.

PY - 2023

Y1 - 2023

N2 - Minimizing leakage from computational states is a challenge when using many-level systems like superconducting quantum circuits as qubits. We realize and extend the quantum-hardware-efficient, all-microwave leakage reduction unit (LRU) for transmons in a circuit QED architecture proposed by Battistel et al. This LRU effectively reduces leakage in the second- and third-excited transmon states with up to 99% efficacy in 220 ns, with minimum impact on the qubit subspace. As a first application in the context of quantum error correction, we show how multiple simultaneous LRUs can reduce the error detection rate and suppress leakage buildup within 1% in data and ancilla qubits over 50 cycles of a weight-2 stabilizer measurement.

AB - Minimizing leakage from computational states is a challenge when using many-level systems like superconducting quantum circuits as qubits. We realize and extend the quantum-hardware-efficient, all-microwave leakage reduction unit (LRU) for transmons in a circuit QED architecture proposed by Battistel et al. This LRU effectively reduces leakage in the second- and third-excited transmon states with up to 99% efficacy in 220 ns, with minimum impact on the qubit subspace. As a first application in the context of quantum error correction, we show how multiple simultaneous LRUs can reduce the error detection rate and suppress leakage buildup within 1% in data and ancilla qubits over 50 cycles of a weight-2 stabilizer measurement.

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DO - 10.1103/PhysRevLett.130.250602

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VL - 130

JO - Physical review letters

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All-Microwave Leakage Reduction Units for Quantum Error Correction with Superconducting Transmon Qubits

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