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| Research on Comparison Measurement of Single-crystal Silicon Sphere Density Based on Pressure Floatation Method |
| LIU Zi-yong,WANG Jin-tao,XU Chang-hong, LUO Zhi-yong |
| National Institute of Metrology, Beijing 100013, China |
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Abstract To overcome the influence of liquid surface tension on the density measurement of single-crystal silicon sphere with hydrostatic method, pressure-of-flotation (PF) method and measurement system were developed to carry out the comparison measurement of single-crystal silicon sphere density. On the condition of certain temperature, the pressure of liquid was adjusted, which caused the change of liquid density, and the standard and measured single-crystal silicon spheres could be suspended in the liquid stably. By measuring liquid temperature, pressure and suspension heights, the density difference was determined. Double-level temperature control system was used to achieve stable temperature within ±0.25 mK. The liquid compress coefficient was determined by the linear equation of temperature-pressure suspension condition. It was verified by experiments that the density difference of single-crystal silicon spheres could be measured with high precision, and the standard relative uncertainty is 2×10-7.
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[1]罗志勇.质量自然基准的研究进展及发展方向[J].计量学报,2004,25(2):138-141.
[2]Bettin H,Toth H.Density comparisons of silicon samples by the pressure-of-flotation method at PTB[J].Metrologia, 2004,41(2):52-61.
[3]Bettin H, Toth H, Waseda A, et al. Comparison of Density Difference Measurements at PTB and NMIJ[J].IEEE Trans Instrum Meas,2005,54(2):877-881.
[4]Waseda A,Fujii K.High precision density comparison measurement of silicon crystals by thepressure of flotation method[J].Mes Sci Tech, 2001,12(12):2039-2045.
[5]罗志勇,杨丽峰,等.基于多光束干涉原理的相移算法研究[J].物理学报,2005,54(7),3051-3057.
[6]Fujii K. Present state of the solid and liquid density standards[J]. Metrologia, 2004, 41(2): 1-15.
[7]Waseda A, Fujii K. Density Evaluation of Silicon Thermal-oxide Layers on Silicon Crystals by the Pressure-of-flotation Method[J]. IEEE Trans Instrum Meas, 2007, 56(2): 628-631. |
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2013, Vol. 34 
