重氫等離子體 的英文怎麼說

中文拼音 [zhòngqīngděngzi]
重氫等離子體 英文
deuterium piston
  • : 重Ⅰ名詞(重量; 分量) weight Ⅱ動詞(重視) lay [place put] stress on; place value upon; attach im...
  • : 名詞[化學] (氣體元素) hydrogen (h)
  • : Ⅰ量詞1 (等級) class; grade; rank 2 (種; 類) kind; sort; type Ⅱ形容詞(程度或數量上相同) equa...
  • : Ⅰ動詞1 (離開) leave; part from; be away from; separate 2 (背離) go against 3 (缺少) dispens...
  • : 子Ⅰ名詞1 (兒子) son 2 (人的通稱) person 3 (古代特指有學問的男人) ancient title of respect f...
  • : 體構詞成分。
  • 離子 : [物理學] ion
  1. This paper mainly aims at the strategic demands for large - aperture lightweight mirror proposed by high - tech development. its main research contents are : select material blank for lightweight mirror according to physical and chemical properties of optical glass ; analyze and calculate the deformation quantity of the mirror with finite element method ; design and optimize mirror body structure of 400 lightweight plane mirror and 450 lightweight spherical mirror, analyze glass cutting principle, design specisl - use grinding wheel structure, select reasonable technological parameters to implement the processing of weight reduction holes on 400 plane mirror ; analyze etching mechanism of hydrofluoric acid, look for the technological parameters such as the optimal acid concentration and etching time etc. ; eliminate the stress of weight reduction holes and micro - cracks on 400 lightweight plane mirror ; discuss the processing principle and

    本論文的研究主要是瞄準國家高技術對大口徑輕型鏡的戰略需求而開展的。主要研究內容是:根據光學玻璃的物理與化學性能,選擇輕型鏡坯材料;用有限元法對鏡的變形進行分析、計算,找出變形規律,優化設計400mm輕型平面鏡、 450mm輕型球面鏡鏡結構;分析玻璃切削原理,設計專用磨輪結構,選擇合理工藝技術參數,完成400mm平面鏡輕量化減孔的加工;分析氟酸腐蝕光學玻璃機理,尋找最佳酸濃度、腐蝕作用時間工藝參數,實現400mm平面鏡減孔應力與微裂紋的消除;討論分器加工原理和工藝技術特點,完成400mm平面輕型鏡面形加工。
  2. Layered and pillared material are a kind of multifunctional material which were developed in recent years, much attention has been paid to this kind of material for its application in ion - exchange catalysts solid state proton conductivity, nonlinear optics and physic. a lot of literature have reported the intercalation behavior of a - zirconium phosphate ( abbreviated as a - zrp ), different guest molecules inserted into a - zrp have been studied in detail, those guest molecules include amine, alcohok amino acid protein, enzyme coornadiate compound and coronal compound. the intercalation guest is restricted by their size and basicity

    層柱材料是近年來發展起來的一類多功能材料,由於其在交換、催化、固態質、非線性光學以及醫學方面的廣泛應用而受到國內外研究者的視,大量文獻報道了-磷酸鋯zr ( hpo _ 4 ) _ 2 ? h _ 2o ( - zirconiumphosphate ,縮寫為- zrp )的超分插層化合物及插層性能,其中對不同的客對磷酸鋯的嵌入做了詳細的報道,客的種類包括氨、醇、氨基酸、蛋白質、酶、配合物、冠狀化合物
  3. The performances of multicrystalline silicon solar cells were improved after porous silicon heavy phosphorous diffusion passivation and low frequency plasma hydrogen passivation

    通過多孔硅磷擴散鈍化及低頻鈍化多晶硅太陽電池晶界鈍化,改善了太陽電池性能。
  4. Abstract : some plasma sources in plasma microwave devices have been introduced and analyzed in this paper, the design and its driving circuit of a compact hydrogen plasma gun have been discussed in detail

    文摘:介紹和分析了幾種微波器件中源,點討論了緊湊型槍的設計及其驅動電路。
  5. The method of preparing the uniform coating, the techniques of thermal bonding and hydrogen plasma treatment was investigated experimentally. the optimum coating method and technological parameters was summarized

    點探索了塗覆金剛石納米塗層的方法、實現金剛石與金屬鈦的熱粘接工藝以及處理的工藝參數,篩選出了在本實驗系統中的最佳方法和工藝條件。
  6. However, the refractive index will increase with the increase of the flow ratio of sifu / nhs, slightly increase with the increase of substrate temperate, and decrease with the increase of rf power. by measuring the passivation results of hydrogen plasma and sinx thin film, we found an evident improvement of minor carrier lifetime in polycrystalline silicon after hydrogen plasma treatment, although it has little to do with the annealing temperature and time. the hydrogen contained in sinx thin film can enhance the carrier mobility of monocrystalline silicon, but after annealing at high temperature the mobility turns down

    通過測試鈍化和氮化硅薄膜鈍化的效果,實驗還發現處理對多晶硅材料的少壽命提高作用比較明顯,但是這種提高作用與處理溫度以浙江大學碩士學位論文王曉泉2003年5月及時間的關系不大;氨化硅薄膜中的對單晶硅的載流遷移率提高有一定作用,但經過高溫處理后這種作用消失;氮化硅薄膜能提高單晶硅和多晶硅的少壽命,具有表面鈍化和鈍化的雙作用;和氮化硅薄膜都能有效地提高單晶和多晶電池的短路電流密度,進而使電池效率有不同程度(絕對轉換效率0
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