Atom–atom interactions around the band edge of a photonic crystal waveguide

机译：光子晶体波导带边缘周围的原子-原子相互作用

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摘要

Tailoring the interactions between quantum emitters and single photons constitutes one of the cornerstones of quantum optics. Coupling a quantum emitter to the band edge of a photonic crystal waveguide (PCW) provides a unique platform for tuning these interactions. In particular, the cross-over from propagating fields E(x) ∝ e^±ikxx outside the bandgap to localized fields E(x) ∝ e^−κx|x| within the bandgap should be accompanied by a transition from largely dissipative atom–atom interactions to a regime where dispersive atom–atom interactions are dominant. Here, we experimentally observe this transition by shifting the band edge frequency of the PCW relative to the D1 line of atomic cesium for

\bar{N} = 3.0 \pm 0.5

atoms trapped along the PCW. Our results are the initial demonstration of this paradigm for coherent atom–atom interactions with low dissipation into the guided mode.

机译：量身定制量子发射器和单光子之间的相互作用是量子光学的基石之一。将量子发射器耦合到光子晶体波导（PCW）的带边缘，为调整这些相互作用提供了一个独特的平台。特别是，从带隙外的传播场E（x）e e ^{±ikxx 到内部的局部场E（x）∝ e ^{-κx| x | 的交叉带隙应伴随着从大量耗散的原子-原子相互作用向以分散的原子-原子相互作用为主的体系的转变。在这里，我们通过相对于 $N？=3.0\pm0.5原子。我们的结果是这种范式的初步证明，该范式适用于在引导模式下具有低耗散的相干原子-原子相互作用。$}}

著录项

期刊名称 Proceedings of the National Academy of Sciences of the United States of America
作者
Jonathan D. Hood; Akihisa Goban; Ana Asenjo-Garcia; Mingwu Lu; Su-Peng Yu; Darrick E. Chang; H. J. Kimble;
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年(卷),期 2016(113),38
年度 2016
页码 10507–10512
总页数 6
原文格式 PDF
正文语种
中图分类
关键词
quantum optics nanophotonics atomic physics;

机译：量子光学;纳米光子学;原子物理学;

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专利

1. ATOM-ATOM INTERACTION AT THE EDGE OF A PHOTONIC BAND GAP [J] . Bay S., Molmer K., Lambropoulos P. Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 1996,第3a4期

机译：光子带隙边缘的原子-原子相互作用
2. Nanowire photonic crystal waveguides for single-atom trapping and strong light-matter interactions [J] . Applied Physics Letters . 2014,第11期

机译：纳米线光子晶体波导，用于单原子俘获和强光-物质相互作用
3. Nanowire photonic crystal waveguides for single-atom trapping and strong light-matter interactions [J] . S.-P. Yu, J. D. Hood, J. A. Muniz, Applied Physics Letters . 2014,第11期

机译：纳米线光子晶体波导，用于单原子俘获和强光-物质相互作用
4. BAND EDGE TRAPS AT SPECTROSCOPICALLY-DETECTED O-ATOM VACANCIES IN NANOCRYSTALLINE ZrO{sub}2 and HfO{sub}2: AN ENGINEERING SOLUTION FOR ELIMINATION OF O-ATOM VACANCY DEFECTS IN NON-CRYSTALLINE TERNARY SILICATE ALLOYS [C] . G. Lucovsky, J. Luning, N. A. Stoute, International Symposium on Physics and Technology of High-k Gate Dielectrics . 2006

机译：在纳米晶ZrO {sub} 2和HFO {sub} 2中的光谱 - 检测到的O-Atom空位的带边阱2：用于消除非晶三元硅酸盐合金中O-原子空位缺陷的工程解决方案
5. Quantum electrodynamics of a driven three-level atom near the edge of a photonic band gap. [D] . Woldeyohannes, Mesfin Arega. 2001

机译：被驱动的三能级原子在光子带隙边缘附近的量子电动力学。
6. PNAS Plus: Clocked atom delivery to a photonic crystal waveguide [O] . A. P. Burgers, L. S. Peng, J. A. Muniz, 2019

机译：PNAS Plus：定时将原子传递到光子晶体波导
7. Atom-atom interactions around the band edge of a photonic crystal waveguide [O] . Hood, J. D., Goban, A., Asenjo-Garcia, A., 2017

机译：光子晶体带边缘周围的原子 - 原子相互作用波导
8. Trapped Atoms in One-Dimensional Photonic Crystals. [R] . Hung, C., Meenehan, S. M., Chang, D. E., 2013

机译：一维光子晶体中的被困原子。

Atom–atom interactions around the band edge of a photonic crystal waveguide

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