Related papers: Single-Atom Amplification Assisted by Multiple Sideband Interference in 1D Waveguide QED Systems

Single-Atom Amplification Assisted by Multiple Sideband Interference in 1D Waveguide QED Systems

URL: http://arxiv.org/abs/2307.11174v2
Date: Mon, 18 Mar 2024 14:28:55 GMT
Title: Single-Atom Amplification Assisted by Multiple Sideband Interference in 1D Waveguide QED Systems
Authors: Kuan-Ting Lin, Ting Hsu, Fahad Aziz, Yu-Chen Lin, Ping-Yi Wen, Io-Chun Hoi, Guin-Dar Lin,
Abstract summary: We study the signal amplification arising from multiple Rabi sideband coherence within a one-dimensional waveguide quantum electrodynamics system. Our findings reveal signal amplification under specific resonant conditions, presenting spectra that reveal finer details than previously documented in the literature. Notably, our results indicate that amplification can occur due to either population inversion or, in some instances, through the constructive interference of multiple sidebands even in the absence of population inversion.
Score: 3.260511603171827
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: This study conducts a theoretical investigation into the signal amplification arising from multiple Rabi sideband coherence within a one-dimensional waveguide quantum electrodynamics system. We utilize a semi-infinite waveguide to drive an anharmonic multi-level transmon with a strong coherent microwave field, examining the scattering behavior by introducing a probe signal. Our findings reveal signal amplification under specific resonant conditions, presenting spectra that reveal finer details than previously documented in the literature. To elucidate the mechanisms behind this amplification, we develop a model that explicitly accounts for multiple dressed sidebands in the presence of a strong driving field. From this model, we derive the reflection amplitude of the probe signal. Notably, our results indicate that amplification can occur due to either population inversion or, in some instances, through the constructive interference of multiple sidebands even in the absence of population inversion. Additionally, we explore how qubit dephasing impacts the amplification process.

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