Recent progress in waveguide-based atom photonics

机译：基于波导的原子光子学的最新进展

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We review a hollow-core anti-resonant reflecting optical waveguide (ARROW) based platform for atom photonics. This platform has been used to demonstrate linear and non-linear spectroscopy and quantum coherence effects in hot rubidium vapor on chip. We discuss several advancements to this platform. All-metal seals significantly improve the lifetime of integrated alkali vapor cells. Additional control beams can be used to produce slower light and to slow down atoms via optical scattering and gradient forces. Specifically, a new technique for slowing atoms on a chip based on a spatially varying AC Stark shift is discussed. Moreover, the planarity of the ARROW waveguide platform lends itself to creating advanced layouts with multiple integrated vapor cells for implementing a variety of photonic device functions.

机译：我们审查了基于空心反共振反射光波导（ARROW）的原子光子学平台。该平台已被用于证明芯片上热rub蒸气中的线性和非线性光谱以及量子相干效应。我们讨论了该平台的一些改进。全金属密封件显着提高了集成碱蒸汽电池的使用寿命。附加的控制光束可用于产生较慢的光，并通过光学散射和梯度力使原子变慢。具体而言，讨论了一种基于空间变化的AC Stark位移来减缓芯片上原子的新技术。此外，ARROW波导平台的平面性有助于创建具有多个集成蒸气单元的先进布局，以实现多种光子器件功能。

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《Slow light, fast light, and opto-atomic precision metrology VIII》|2015年|937803.1-937803.7|共7页
会议地点 San Francisco CA(US)
作者
Jennifer A. Black; Matthieu Giraud-Carrier; Aaron R. Hawkins; Holger Schmidt;
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作者单位

School of Enginnering, University of California Santa Cruz, 1156 High Street, Santa Cruz, CA, USA 95064;

Department of Electrical and Computer Engineering, Brigham Young University, 459 Clyde Building, Provo, UT USA 84602;

Department of Electrical and Computer Engineering, Brigham Young University, 459 Clyde Building, Provo, UT USA 84602;

School of Enginnering, University of California Santa Cruz, 1156 High Street, Santa Cruz, CA, USA 95064;

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正文语种 eng
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Electromagnetically induced transparency; slow and stopped light; atomic cooling; waveguides;

机译：电磁感应的透明度；缓慢而停止的灯光；原子冷却波导;

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2. Multilayered photonic integration on SOI platform using waveguide-based bridge structure [J] . Saikat Majumder, Rajib Chakraborty The European physical journal. Applied physics . 2018,第3期

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3. Photonic crystal waveguide-based biosensor for detection of diseases [J] . Chopra Harshita, Kaler Rajinder S., Painam Balveer Journal of Nanophotonics . 2016,第3期

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4. Recent progress in waveguide-based atom photonics [C] . Jennifer A. Black, Matthieu Giraud-Carrier, Aaron R. Hawkins, Slow Light, Fast Light, and Opto-Atomic Precision Metrology . 2015

机译：基于波导的原子光子学的最新进展
5. Linear Atom Guides: Guiding Rydberg Atoms and Progress Toward an Atom Laser [D] . Traxler, Mallory A. 2013

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6. Atom–atom interactions around the band edge of a photonic crystal waveguide [O] . Jonathan D. Hood, Akihisa Goban, Ana Asenjo-Garcia, 2016

机译：光子晶体波导带边缘周围的原子-原子相互作用
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

Recent progress in waveguide-based atom photonics

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