Interferometric Purcell suppression of spontaneous emission in a superconducting qubit

• URL: http://arxiv.org/abs/2405.10107v1
• Date: Thu, 16 May 2024 14:01:11 GMT
• Title: Interferometric Purcell suppression of spontaneous emission in a superconducting qubit
• Authors: Alec Yen, Yufeng Ye, Kaidong Peng, Jennifer Wang, Gregory Cunningham, Michael Gingras, Bethany M. Niedzielski, Hannah Stickler, Kyle Serniak, Mollie E. Schwartz, Kevin P. O'Brien,
• Abstract summary: In superconducting qubits, suppression of spontaneous emission is essential to achieve fast dispersive measurement and reset. We show that resonator-mediated decay of the qubit mode to the feedline can be suppressed using destructive interference. This "interferometric Purcell filter" does not require dedicated filter components or impedance mismatch in the feedline.
• Score: 4.264154493360234
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: In superconducting qubits, suppression of spontaneous emission is essential to achieve fast dispersive measurement and reset without sacrificing qubit lifetime. We show that resonator-mediated decay of the qubit mode to the feedline can be suppressed using destructive interference, where the readout resonator is coupled to the feedline at two points. This "interferometric Purcell filter" does not require dedicated filter components or impedance mismatch in the feedline, making it suitable for applications such as all-pass readout. We design and fabricate a device with the proposed scheme and demonstrate suppression of resonator-mediated decay that exceeds 2 orders of magnitude over a bandwidth of 400 MHz.

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