Matter-wave Induced Transparenc
摘要
Electromagnetically induced transparency suppresses optical absorption through destructive interference, playing a central role in light-matter interaction and quantum information science. We report matter-wave induced transparency, where atomic collisional interactions induce transmission through a lossy molecular potential for the incident atomic scattering waves. Using cesium Bose-Einstein condensates and modulation-induced Feshbach resonances, we realize a three-level atom-molecule coupled system with unprecedented flexibility. Under the dark state condition, a narrow and tunable transparency window appears within a broad dissipative collisional resonance. The transparency window linewidth is controlled by modulation-induced coupling. And scattering pathways are selectable via multifrequency Floquet modulation. These results establish an interference-based route for exploring programmable nonequilibrium and non-Hermitian physics, steering quantum chemistry and precision measurements.
引用
@article{arxiv.2607.03820,
title = {Matter-wave Induced Transparenc},
author = {Tongkang wang and Yuqi Liu and Wenlan Chen and Zhendong Zhang and Jiazhong Hu},
journal= {arXiv preprint arXiv:2607.03820},
year = {2026}
}
备注
8 pages, 5 figures