Related papers: Cavity-QED of a quantum metamaterial with tunable disorder

Cavity-QED of a quantum metamaterial with tunable disorder

URL: http://arxiv.org/abs/2107.01420v3
Date: Mon, 14 Feb 2022 20:35:20 GMT
Title: Cavity-QED of a quantum metamaterial with tunable disorder
Authors: Grigoriy S. Mazhorin, Ilya N. Moskalenko, Ilya S. Besedin, Dmitriy S. Shapiro, Sergey V. Remizov, Walter V. Pogosov, Dmitry O. Moskalev, Anastasia A. Pishchimova, Alina A. Dobronosova, I. A. Rodionov, Alexey V. Ustinov
Abstract summary: We explore a quantum metamaterial based on a superconducting chip with 25 frequency-tunable transmon qubits coupled to a common coplanar resonator. The collective bright and dark modes are probed via the microwave response, i.e., by measuring the transmission amplitude of an external microwave signal.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We explore experimentally a quantum metamaterial based on a superconducting chip with 25 frequency-tunable transmon qubits coupled to a common coplanar resonator. The collective bright and dark modes are probed via the microwave response, i.e., by measuring the transmission amplitude of an external microwave signal. All qubits have individual control and readout lines. Their frequency tunability allows to change the number N of resonantly coupled qubits and also to introduce a disorder in their excitation frequencies with preassigned distributions. While increasing N, we demonstrate the expected $N^{1/2}$ scaling law for the energy gap (Rabi splitting) between bright modes around the cavity frequency. By introducing a controllable disorder and averaging the transmission amplitude over a large number of realizations, we demonstrate a decay of mesoscopic fluctuations which mimics an approach towards the thermodynamic limit. The collective bright states survive in the presence of disorder when the strength of individual qubit coupling to the cavity dominates over the disorder strength.

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