Single- and Two-Mode Squeezing by Modulated Coupling to a Rabi Driven Qubit
Single- and Two-Mode Squeezing by Modulated Coupling to a Rabi Driven Qubit
Advanced bosonic quantum computing architectures demand nonlocal Gaussian operations such as two-mode squeezing to unlock universal control, enable entanglement generation, and implement logical operations across distributed modes. This work presents a novel method for generating conditional squeezing using a Rabi-driven qubit dispersively coupled to one or two harmonic oscillators. A proof that this enables universal control over bosonic modes is provided, expanding the toolkit for continuous-variable quantum information processing. Using modulated Jaynes-Cummings interactions in circuit QED, the simulation predicts intra-cavity squeezing of 13dB (single-mode), 4dB (superimposed single-mode), and 12dB (two-mode), with the latter two yet to be demonstrated experimentally. These results establish a new paradigm for qubit-conditioned control of photonic states, with applications to quantum sensing and continuous-variable computation on readily available systems.
Eliya Blumenthal、Nir Gutman、Ido Kaminer、Shay Hacohen-Gourgy
光电子技术计算技术、计算机技术
Eliya Blumenthal,Nir Gutman,Ido Kaminer,Shay Hacohen-Gourgy.Single- and Two-Mode Squeezing by Modulated Coupling to a Rabi Driven Qubit[EB/OL].(2025-07-30)[2025-08-06].https://arxiv.org/abs/2507.22641.点此复制
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