| 用于承载铷原子钟滤光泡的高品质微腔体制备; Fabrication of high-quality micro-cavity for filter cell of rubidium atomic clock | |
| 王婷婷 ; 曾毅波 ; 王盛贵 ; 魏秀燕 ; 毕瑞可 ; 郭航 | |
| 2014-04-22 | |
| 关键词 | 微腔体 铷原子钟 各项异性湿法腐蚀 超声腐蚀 激光共聚焦扫描显微镜 凸角补偿 micro-cavity rubidium atomic clock anisotropic wet etching etching under ultrasonic stirring laser scanning confocal microscope(LSCM) concave corner compensation |
| 英文摘要 | 在芯片级铷原子钟中,需要微腔体来承载rb—87滤光泡,为此,提出了一种用于制作高品质微腔体的新技术。为了获得光滑的腔体侧面和避免腐蚀过程中凸角处产生削角现象,研究中采用了超声腐蚀技术和凸角补偿技术。首先,分别在纯kOH溶液,并结合搅拌和超声等方法,对(100)硅片进行湿法腐蚀,并运用激光共聚焦扫描显微镜对腐蚀后的{111}表面进行粗糙度测量,表明运用超声腐蚀技术可以获得光滑的{111}腔体侧面。在此基础上,引入条形掩模凸角补偿方法进行微腔体腐蚀。实验结果表明:在80℃、质量分数为30%kOH、超声频率和功率分别为59 kHz和160 W的溶液中腐蚀,其{111}腐蚀表面粗糙度为0.117μM,同时条形的长度取1200μM时,可以获得平滑规整的微腔体。; In chip-scale rubidium atomic clock,the Rb—87 filter is required to be loaded in micro-cavity,so present a new technology for fabrication of the high-quality micro-cavity.In order to gain smooth side surfaces,i.e.Si( 111) plane,of micro-cavity and to avoid undercutting at the concave corner,ultrasonic etching and concave corner compensation techniques are used.First,silicon( 100) wafer is wet etched in the pure KOH etching solution with ultrasonic and stirring,and the roughness of Si { 111 } wet-etched surface is measured by laser scanning confocal microscope( LSCM).On this basis,a strip mask compensation method for concave corner is adopted for micro-cavity etching.The results show that the etched Si{ 111} surface roughness can achieve 0.117 μm( RMS) in mass fraction 30 % KOH etching solution at 80 ℃ with ultrasonic frequency of 59 kHz and power of 160 W,and when the strip length is 1 200 μm,smooth micro-cavity can be obtained.; 福建省重大科技项目前期研究计划资助项目(2005HZ1021) |
| 语种 | zh_CN |
| 内容类型 | 期刊论文 |
| 源URL | [http://dspace.xmu.edu.cn/handle/2288/105861]  |
| 专题 | 航空航天-已发表论文 |
| 推荐引用方式 GB/T 7714 | 王婷婷,曾毅波,王盛贵,等. 用于承载铷原子钟滤光泡的高品质微腔体制备, Fabrication of high-quality micro-cavity for filter cell of rubidium atomic clock[J],2014. |
| APA | 王婷婷,曾毅波,王盛贵,魏秀燕,毕瑞可,&郭航.(2014).用于承载铷原子钟滤光泡的高品质微腔体制备.. |
| MLA | 王婷婷,et al."用于承载铷原子钟滤光泡的高品质微腔体制备".(2014). |
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