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基于回音壁微腔拉曼激光的纳米粒子探测

王涛 杨旭 刘晓斐 雷府川 高铭 胡蕴琪 龙桂鲁

基于回音壁微腔拉曼激光的纳米粒子探测

王涛, 杨旭, 刘晓斐, 雷府川, 高铭, 胡蕴琪, 龙桂鲁
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  • 回音壁模式光学微腔由于其品质因子高、模式体积小等优点, 近年来在非标记性的纳米粒子探测方面得到了广泛的重视, 开展了大量的研究, 取得了重要的进展. 利用回音壁微腔的拉曼激光, 通过测量纳米粒子造成的模式劈裂的拍频, 可以实现不同环境下纳米粒子的实时探测. 与传统的稀土离子掺杂法不同, 这种方法采用腔的内禀增益, 不仅提高了应用回音壁模式微腔进行纳米粒子探测的极限, 而且避免了传统方法中稀土离子能级对泵浦光的限制, 拓展了应用范围. 这种方法还可以应用于其他材料的回音壁微腔, 如硅基微环腔等, 以及光子晶体结构、超材料等受损耗限制的系统中. 本文简单介绍了回音壁模式光学微腔进行纳米粒子探测的基本原理以及最新研究进展.
    • 基金项目: 国家自然科学基金(批准号: 11175094, 11474181, 91221205) 和国家重大基础研究计划(批准号: 2011CB9216002) 资助的课题.
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基于回音壁微腔拉曼激光的纳米粒子探测

  • 1. 清华大学物理系, 低维量子物理国家重点实验室, 北京 100084;
  • 2. 清华信息科学技术国家实验室(筹), 北京 100084;
  • 3. 量子物质科学协同创新中心, 北京 100084
    基金项目: 

    国家自然科学基金(批准号: 11175094, 11474181, 91221205) 和国家重大基础研究计划(批准号: 2011CB9216002) 资助的课题.

摘要: 回音壁模式光学微腔由于其品质因子高、模式体积小等优点, 近年来在非标记性的纳米粒子探测方面得到了广泛的重视, 开展了大量的研究, 取得了重要的进展. 利用回音壁微腔的拉曼激光, 通过测量纳米粒子造成的模式劈裂的拍频, 可以实现不同环境下纳米粒子的实时探测. 与传统的稀土离子掺杂法不同, 这种方法采用腔的内禀增益, 不仅提高了应用回音壁模式微腔进行纳米粒子探测的极限, 而且避免了传统方法中稀土离子能级对泵浦光的限制, 拓展了应用范围. 这种方法还可以应用于其他材料的回音壁微腔, 如硅基微环腔等, 以及光子晶体结构、超材料等受损耗限制的系统中. 本文简单介绍了回音壁模式光学微腔进行纳米粒子探测的基本原理以及最新研究进展.

English Abstract

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