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Controlling quasiparticle dynamics can improve the performance of superconducting devices. For example, it has been demonstrated effective in increasing lifetime and stability of superconducting qubits. Here we study how to optimize the…

Superconductivity · Physics 2017-12-29 A. Hosseinkhani , R. -P. Riwar , R. J. Schoelkopf , L. I. Glazman , G. Catelani

The presence of quasiparticles in superconducting qubits emerges as an intrinsic constraint on their coherence. While it is difficult to prevent the generation of quasiparticles, keeping them away from active elements of the qubit provides…

Superconductivity · Physics 2016-09-22 R. -P. Riwar , A. Hosseinkhani , L. D. Burkhart , Y. Y. Gao , R. J. Schoelkopf , L. I. Glazman , G. Catelani

Quasiparticles are an intrinsic source of relaxation and decoherence for superconducting qubits. Recent works have shown that normal-metal traps may be used to evacuate quasiparticles, and potentially improve the qubit life time. Here, we…

Mesoscale and Nanoscale Physics · Physics 2018-07-11 Roman-Pascal Riwar , Leonid I. Glazman , Gianluigi Catelani

Identifying, quantifying, and suppressing decoherence mechanisms in qubits are important steps towards the goal of engineering a quantum computer or simulator. Superconducting circuits offer flexibility in qubit design; however, their…

The performance of various superconducting devices operating at ultra-low temperatures is impaired by the presence of non-equilibrium quasiparticles. Inelastic quasiparticle (QP) tunneling across Josephson junctions in superconducting…

Quantum Physics · Physics 2024-05-14 Plamen Kamenov , Thomas DiNapoli , Michael Gershenson , Srivatsan Chakram

The performance of many superconducting devices is degraded in presence of non-equilibrium quasiparticles in the superconducting part. One promising approach towards their evacuation is the use of normal-metal quasiparticle traps, where…

Mesoscale and Nanoscale Physics · Physics 2020-05-15 R. P. Schmit , F. K. Wilhelm

Designing the spatial profile of the superconducting gap -- gap engineering -- has long been recognized as an effective way of controlling quasiparticles in superconducting devices. In aluminum films, their thickness modulates the gap;…

Mesoscale and Nanoscale Physics · Physics 2023-01-02 Giampiero Marchegiani , Luigi Amico , Gianluigi Catelani

In many superconducting devices, including qubits, quasiparticle excitations are detrimental. A normal metal ($N$) in contact with a superconductor ($S$) can trap these excitations; therefore such a trap can potentially improve the devices…

Superconductivity · Physics 2018-02-23 A. Hosseinkhani , G. Catelani

We have studied the diffusion of excess quasiparticles in a current-biased superconductor strip in proximity to a metallic trap junction. In particular, we have measured accurately the superconductor temperature at a near-gap injection…

Mesoscale and Nanoscale Physics · Physics 2015-05-28 Sukumar Rajauria , L. M. A. Pascal , Ph. Gandit , F. W. J. Hekking , B. Pannetier , H. Courtois

Ionizing radiation impacts create bursts of quasiparticle density in superconducting qubits. These bursts temporarily degrade qubit coherence which can be detrimental for quantum error correction. Here, we experimentally resolve…

At low temperature, the concentration of quasiparticles observed in superconducting circuits far exceeds the predictions of microscopic BCS theory at equilibrium. As a source of dissipation, these excess quasiparticles degrade the…

Superconductivity · Physics 2025-12-18 Romy Morin , Denis M. Basko , Manuel Houzet , Julia S. Meyer

Quasiparticle relaxation in pure superconductors is thought to be determined by the intrinsic inelastic scattering rate in the material. In certain applications, i.e. superconducting qubits and circuits, excess quasiparticles exist at…

Superconductivity · Physics 2024-12-09 Kevin M. Ryan , Venkat Chandrasekhar

Superconducting circuits have attracted growing interest in recent years as a promising candidate for fault-tolerant quantum information processing. Extensive efforts have always been taken to completely shield these circuits from external…

Quasiparticles are an important decoherence mechanism in superconducting qubits, and can be described with a complex admittance that is a generalization of the Mattis-Bardeen theory. By injecting non-equilibrium quasiparticles with a tunnel…

We have engineered the bandgap profile of transmon qubits by combining oxygen-doped Al for tunnel junction electrodes and clean Al as quasiparticle traps to investigate energy relaxation due to quasiparticle tunneling. The relaxation time…

The quasiparticle density observed in low-temperature superconducting circuits is several orders of magnitude larger than the value expected at thermal equilibrium. The tunneling of this excess of quasiparticles across Josephson junctions…

Quantum Physics · Physics 2025-11-03 José Alberto Nava Aquino , Rogério de Sousa

A known source of decoherence in superconducting qubits is the presence of broken Cooper pairs, or quasiparticles. These can be generated by high-energy radiation, either present in the environment or purposefully introduced, as in the case…

Non-equilibrium quasiparticles are possible sources for decoherence in superconducting qubits because they can lead to energy decay or dephasing upon tunneling across Josephson junctions (JJs). Here, we investigate the impact of the…

Quantum error correction (QEC) provides a practical path to fault-tolerant quantum computing through scaling to large qubit numbers, assuming that physical errors are sufficiently uncorrelated in time and space. In superconducting qubit…

Non-equilibrium quasiparticle excitations degrade the performance of a variety of superconducting circuits. Understanding the energy distribution of these quasiparticles will yield insight into their generation mechanisms, the limitations…

Mesoscale and Nanoscale Physics · Physics 2018-10-16 K. Serniak , M. Hays , G. de Lange , S. Diamond , S. Shankar , L. D. Burkhart , L. Frunzio , M. Houzet , M. H. Devoret
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