Single step zero-thermal-expansion temperature measurement of optical reference cavities
Zhiyuan Wang, Yanxia Ye*, Jialu Chang, Jingxuan Zhang, Yunlong Sun, Leilei He, Qiyue Wu, Zehuang Lu and Jie Zhang
Abstract: State-of-the-art laser frequency stability has been pushed to the 10−17 level. The laser reference cavity is typically nested in a multi-layer thermal enclosure to increase vacuum thermal time constant and thermally controlled at the zero-thermal-expansion temperature to reduce the external temperature fluctuation effect. It is rather time consuming to accurately determine the zero-thermal-expansion temperature for a large thermal time constant system. Here we develop a fast method for measuring the zero-thermal-expansion temperature of the cavity by relying on just one single temperature scan. We frst develop a theoretical model to predict the performance of the laser locked to the reference cavity, and then construct an evaluation system for verification of the model. The zero-thermal-expansion temperature of a 30-cm cavity is measured to be 4.3±0.5 °C. The fast and high precision method for determining the zero-thermal-expansion temperature will be valuable in improving long-term frequency stabilities of cavity stabilized lasers.
期刊名:Optics Express
期/卷:29(19)
页码:30567
发表时间:2021
DOI:https://doi.org/10.1364/OE.436112
