Single-Atom Microwave Amplification Assisted by Multi-Rabi Sideband Interference in a 1D Waveguide QED System

林冠廷 博士 - 台灣大學物理系

Single-Atom Microwave Amplification Assisted by Multi-Rabi Sideband Interference in a 1D Waveguide QED System

林冠廷 博士 - 台灣大學物理系

Share this post:
Register

Share this post:

日期

2024-05-06  

時間

12:10-13:10  

地點

理學教學新大樓物理系1F 36173會議室  

領域

Quantum Information Science  

講者

林冠廷 博士 - 台灣大學物理系  

題目

Single-Atom Microwave Amplification Assisted by Multi-Rabi Sideband Interference in a 1D Waveguide QED System  

摘要

To achieve precise measurements, an efficient signal amplifier is essential to enhance the intensity of the probe signal, especially in noisy environments. However, developing such an amplifier in a three-dimensional setup-where a single atom interacts with the continuous modes of three-dimensional electromagnetic fields-presents challenges due to spatial mode mismatches, resulting in weak coupling.  A viable solution is to confine the electromagnetic fields within a one-dimensional environment. In this study, we explore microwave amplification achieved by a single superconducting multi-level atom, specifically a transmon, driven by a strong pump field through the continuous modes of a semi-infinite one-dimensional waveguide.  The atom can be excited to a higher energy state through a multi-photon process, leading to the generation of multiple dressed states. Our theoretical investigation focuses on the amplification mechanism triggered by stimulated emission from nearly degenerate dressed states, taking into account the effects of quantum interference.