Characterization and mitigation of infrared-induced decoherence in superconducting qubits
陳永富教授 - 國立中央大學物理系
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2026-03-02 12:10:00 ~
2026-03-02 13:10:00See event details for additional info.
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理學教學新大樓物理系1F 36173會議室
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Characterization and mitigation of infrared-induced decoherence in superconducting qubits
陳永富教授 - 國立中央大學物理系
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日期 |
2026-03-02 |
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時間 |
12:10-13:10 |
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地點 |
理學教學新大樓物理系1F 36173會議室 |
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領域 |
Quantum Information Science |
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講者 |
陳永富教授 - 國立中央大學物理系 |
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題目 |
Characterization and mitigation of infrared-induced decoherence in superconducting qubits |
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摘要 |
Qubit coherence is a crucial requirement for realizing fault-tolerant quantum computation. In superconducting qubits, coherence times are typically shorter than those of other physical qubit platforms, primarily because their macroscopic size leads to stronger coupling to environmental noise. A significant source of decoherence arises from quasiparticles generated by infrared (IR) radiation. These quasiparticles act as dissipative excitations, providing an additional loss channel for the qubit. In this talk, we present our approach to characterizing and mitigating quasiparticle effects in superconducting qubits. We have developed a comprehensive IR shielding and filtering scheme, incorporating indium seals that play a crucial role in blocking IR leakage through packaging gaps. With these improvements, qubit coherence is significantly enhanced. Notably, when the qubit package and all shielding stages are thoroughly thermally anchored to the mixing plate, we achieve an effective qubit temperature as low as 17 mK, which, to the best of our knowledge, is the lowest value reported to date. |
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