Directional Coupler: Impact of the Energetic Landscape on Polariton Condensates' Propagation along a Coupler (Advanced Optical Materials 18/2020),Advanced Optical Materials

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Directional Coupler: Impact of the Energetic Landscape on Polariton Condensates' Propagation along a Coupler (Advanced Optical Materials 18/2020)
Advanced Optical Materials ( IF 8.0 ) Pub Date : 2020-09-21 , DOI: 10.1002/adom.202070072
Elena Rozas _{1,

2} , Johannes Beierlein ₃ , Alexey Yulin ₄ , Martin Klaas ₃ , Holger Suchomel ₃ , Oleg Egorov ₅ , Ivan Andreevich Shelykh _{6,

7} , Ulf Peschel ₅ , Christian Schneider ₃ , Sebastian Klembt ₃ , Sven Höfling _{3,

8} , María Dolores Martín _{1,

2} , Luis Viña _{1,

2,

9}

Affiliation

Semiconductor microcavities offer extraordinary opportunities for the control and manipulation of light. A plethora of devices ranging from polariton lasers to integrated circuits have been proposed in the last decade. In article number 2000650, Maria Dolores Martin and co‐workers provide essential information about the energy landscape and the impact of the geometry on the polariton condensates' propagation along a novel device, a directional coupler.

中文翻译：

定向耦合器：高能态对极化子冷凝物沿耦合器传播的影响（先进光学材料18/2020）

半导体微腔为光的控制和操纵提供了绝佳的机会。在过去的十年中，已经提出了许多设备，从极化激光到集成电路。玛丽亚·多洛雷斯·马丁（Maria Dolores Martin）及其同事在文章编号2000650中，提供了有关能源格局以及几何形状对极化子冷凝物沿新型装置（定向耦合器）传播的影响的重要信息。

更新日期：2020-09-21

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