*在口頭報告時如何面對觀眾 (PART B)
*在一個口頭報告中如何有效地運用您的聲音 (PART B)
*學術英文投稿教學影片 (107) : Starting your research with EndNote
*工程英文假設描述 (91) (下)
Academic publishing news 學術出版新聞
在口頭報告時如何面對觀眾 (PART B)
在一個口頭報告中如何有效地運用您的聲音 (PART B)
學術英文投稿教學影片 (107) : Starting your research with EndNote
The Pressure/Vacuum Measurement Laboratory at the Center for Measurement Standards is planning to develop the primary pressure standard (PPS) of the mercury manometer so as to promote and strengthen our laboratory’s pressure measurement capability.
We have heard that your group has much experience in research involving the PPS of the mercury manometer.
Would it be possible for me to serve as a guest worker in your laboratory? If granted such an opportunity, my primary objective would be to study how to design and set up the mercury manometer PPS.
Our institute, the Center for Measurement Standards, a subsidiary of the Industrial Technology Research Institute, has been entrusted with the responsibility of establishing and maintaining national standards and traceability systems. We also provide calibration services, technical consulting, and metrology training to the local industrial sector.
After reviewing your literature, I find that the systems and projects of your laboratory, especially the mercury manometer, are quite compatible with my interests.
A six month period as a guest worker would probably be the most appropriate time frame. If my application is accepted, I can start no earlier than October and end no later than May 2013.
Attached please find my personal resume. Thank you for your attention to this matter.
工程英文假設描述 (91) (下)
*工程目標 : 工程提案的目標 ?
*達成目標的方法 : 你的計劃中達成目標的步驟?
*希望的結果 : 希望的結果你希望達成的結果?
*領域的貢獻 : 你的提案對相關工程領域的貢獻?
工程計劃目標 A modified FJP method can be developed to ensure not only that the shape is close to Gaussian distribution with a low pressure air source, but also that the resolution of material removal should be small and stable. 達成目標的方法 To do so, slurry can be carried with low air pressure, based on use of siphonic and laminar flow theories. The Gaussian shape can then be achieved by using a nozzle different from the conventional one, in which both air and slurry can pass through simultaneously. Next, fine resolution of material removal can be obtained by optimization of the slurry concentration and air pressure. 希望的結果 As anticipated, the modified FJP method can produce stable material removal less then 50 nm deep by using 1~2 bar air pressure source and the new nozzle. Via the modified FJP method, small optical elements can be fabricated using accurate material removal. 領域的貢獻 Moreover, the enhanced capability of material removal can fabricate precise optical elements, ultimately improving the performance of an optical system.