汇报题目:参加European Frequency and Time Forum and International Frequency Control Symposium (EFTF-IFCS 2017) 参会报告
汇报时间:2017年7月18日(星期二)15:00
汇报地点:科技园西五楼A-402会议室
汇报人:陈轩
会议名称:European Frequency and Time Forum and International Frequency Control Symposium (EFTF-IFCS 2017)
会议时间:9-13 July 2017
会议地点:Besancon, France
会议简介:The 31st European Frequency and Time Forum and the 71st consecutive meeting of the IEEE International Frequency Control Symposium will be held as a joint conference in Besançon, France, July 9th-13th 2017. The conference will provide information on recent advances and trends on scientific research, development and manufacturing technology in the area of frequency and time and frequency control. A technical exhibition will be held during the conference, which will be hosted in Micropolis Conference centre, easily reached by ground transportation from downtown Besançon. Scenic city and historic capital of the french horology, Besançon can easily be reached by high speed train from Paris and by car or regular trains from Lyon, Basel or Geneva. The European Frequency and Time Forum (EFTF) was born in 1987 in Besançon, a wonderful small city 400 km south east from Paris.
会议交流工作
Poster Presentation: A micromechanical resonant optical power meter
报告人:陈轩
参加论文信息:
Title:A micromechanical resonant optical power meter
Author:Xuan Chen, Dong Pu, Tianyi Zhang, Zhuangde Jiang and Xueyong Wei
Abstract:This paper presents a new kind of micromechanical optical power meter using a micro disk resonator. With the change of laser power irradiated on the surface of resonator, the resonant frequency of the micromechanical resonator fluctuates because of the temperature change. A linear relationship between the laser power and the resonant frequency is obtained by both open-loop experiment and closed-loop experiment. The response time of the detector is less than 0.3s according to the experiment. The simulation result is verified by the experimental data. Using this corresponding relationship between the laser power and resonant frequency, the resolution of our optical power meter can reach 1μW or even higher.
