What question did this study set out to answer?

The aim is to solve the long-term stability and environmental robustness issues of whispering gallery mode resonators (WGMR) in practical applications.

May 8, 2026Open Access

面向实际应用的低环境敏感性回音壁模谐振器封装技术

Key Points

The aim is to solve the long-term stability and environmental robustness issues of whispering gallery mode resonators (WGMR) in practical applications.
Introduced a solid-state optical bonding process combined with active temperature control and airtight packaging technology.
Conducted comprehensive characterization tests on the independent WGMR modules to evaluate temperature and acceleration sensitivity.
Applied the packaged module in optical frequency reference source and nonlinear photonics platform for performance testing.
Temperature sensitivity of the packaged module is below 10−7/°C.
Low-frequency Z-axis acceleration sensitivity is below 10−10/g.
Achieved a short-term frequency stability of 2×10−13 within 2 ms integration time as an optical frequency reference.

Abstract

目的：为解决回音壁模式谐振器（WGMR）在实际应用中因环境敏感导致的长期稳定性差、环境鲁棒性不足等问题，提出一种新型棱镜耦合封装策略，旨在显著提升其工程实用性与可靠性。方法：首先，介绍一种全固态光学胶合工艺，结合主动温控与气密封装技术，构成完整的封装方案。其次，对独立的WGMR模块进行综合性详尽的表征测试，主要评估其温度敏感性与加速度敏感性。最后，将该封装模块分别应用于光学频率参考源和非线性光子学平台中，测试其短期频率稳定性和产生光学频率梳的性能。结果：实验结果表明：1）封装模块的温度敏感性低于10−7/°C；2）其低频Z轴加速度敏感性低于10−10/g；3）作为光学频率参考时，在2 ms积分时间内实现了2×10−13 的短期频率稳定性；4）作为非线性平台，在100 mW泵浦功率下成功产生了克尔孤子微梳。结论：该棱镜耦合封装方案具有紧凑、坚固、稳定的特点，其关键性能指标有效满足了高可靠性应用的需求。该方案显著增强了WGMR在窄线宽激光器、便携式微梳等实际场景中的即时应用能力，有力推动了WGMR技术从实验室研究走向实际部署

面向实际应用的低环境敏感性回音壁模谐振器封装技术

Key Points

Abstract

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