極紫外探測器 的英文怎麼說

中文拼音 [wàitàn]
極紫外探測器 英文
euve extreme ultraviolet explorer euvee
  • : i 名詞1 (頂點; 盡頭) the utmost point; extreme 2 (地球的南北兩端; 磁體的兩端; 電源或電器上電流...
  • : Ⅰ形容詞(紅和藍合成的顏色) purple; violet Ⅱ名詞(姓氏) a surname
  • : Ⅰ名詞1 (外面) outside; external side 2 (外國) foreign country 3 (以外) besides; beyond; in ...
  • : Ⅰ動詞1 (試圖發現) try to find out; explore; sound 2 (看望) call on; visit; see 3 (向前伸出)...
  • : 動詞1. (測量) survey; fathom; measure 2. (測度; 推測) conjecture; infer
  • : 名詞1. (器具) implement; utensil; ware 2. (器官) organ 3. (度量; 才能) capacity; talent 4. (姓氏) a surname
  • 探測器 : finder; detector; seeker; sounder; probe
  • 探測 : survey; search; sound; probe; sounding; detection; acquisition; reconnaissance; localization; fin...
  1. Its main purpose is to know different kinds of detecting method. generally, euv and soft x - ray photodetector included five types : ionization gas, semiconductor, electron multiplier and film

    總的說來和軟x射線光電的類型有氣體電離型、半導體型、電子倍增以及和軟x射線膠片(干板) 。
  2. The conventional methods of the gemmology and the modern instruments of electronic probe, ultraviolet - visible spectrophotometer, fourier transform infrared spectrometer, cathodoluminescence spectrometer are used to research and analyse the flux - grown synthetic spinel and compare them with the natural spinels

    摘要採用常規的寶石學研究方法以及電子針、可見分光光度計、傅里葉變換紅光譜儀和寶石陰發光光譜儀等現代試儀,對助熔劑法合成尖晶石的寶石學特徵進行了全面分析,並與天然尖晶石進行了對比。
  3. In euv and soft x - ray band, the most often used detector is ion chamber with rare gas, from whose collective electrode we can directly calculate intensity of photon flux

    和軟x射線波段常用的是稀有氣體電離室,可以通過電離室收集的收集電流直接計算出光子流強度。
  4. Euve, extreme ultraviolet explorer euve

    極紫外探測器
  5. The primary investigation of this paper is the ohmic contact between metafs ' and gan. moreover, we have prepared photodetectors and schottky diodes based on gan

    本文的主要工作是對金屬與n型gan的歐姆接觸進行了研究,並在此基礎上制備了硅基gan上的和gan肖特基二體。
  6. Zno is a ii - vi semiconductor material with wide band - gap, which has hexagonal wurtzite structure. zno thin films were widely applied in solar cell, uv detector, saw device, gas sensor and transparent electrodes et al for their excellent properties

    氧化鋅( zno )是一種具有六方纖鋅礦晶體結構的寬禁帶ii - vi族半導體材料,由於其優良的特性,在太陽能電池、、聲表面波件、氣敏傳感、透明電等方面得到了廣泛的應用。
  7. Traditionally, zno is used as surface acoustic wave devices ( saw ), bulk acoustic devices ( baw ), gas sensors, varistors, transparent electrodes, uv - detectors, and etc. in recent years, zno has gained more and more attention as a wide band semiconductor

    傳統上, zno薄膜被廣泛應用於聲表面波件、體聲波件、氣敏傳感、壓敏電阻、透明電等領域。近年來, zno作為寬禁帶半導體光電材料的研究越來越受到人們的重視。
  8. Compared to gan, which is one of the most successful wide - band semiconductor materials at present, zno is promising : high - quality zno with very low defect densities can be synthesized at much lower temperature than gan ; zno can emits light with shorter wavelength than blue light emission from gan ; zno has higher excitonic binding energy ( ~ 60mev for zno, 25mev for gan ), which promises strong photoluminescence from bound excitonic emissions at room temperature ; meanwhile, homogeneous bulk zno is available

    和gan相比, zno薄膜具有生長溫度低,激子復合能高( zno : 60mev , gan : 21 25mev ) ,受激輻射閾值較低,能量轉換效率很高等優點。有可能實現室溫下較強的受激發射,制備出性能較好的、發光二體和激光二體等光電子件。
  9. Zno is promising : high - quality zno with very low defect densities can be synthesized at much lower temperature ; zno can emits light with shorter wavelength than blue light emission from gan ; zno has higher excitonic binding energy promising strong photoluminescence from the bound excitonic emissions even at room temperature ; by alloying with mgo, tuning of the band gap while keeping the zno hexagonal structure can be achieved by forming mgxzn1 - xo. as we know, band gap tuning is important to produce efficient and lasting light emitting diodes ( led ) and other electronic devices

    利用mg _ xzn _ ( 1 - x ) o薄膜,可以在保持zno六方纖鋅礦( wurtzite )結構的同時有效調節調節薄膜的禁帶寬度,制備出基於氧化鋅的量子阱、超晶格及相關的光電件,如基於氧化鋅的發光二體和激光二體等光電子件。
  10. The first chapter is introduction, which mainly introduce the detector used in extreme ultraviolet ( euv ) and soft x - ray band

    論文第一章是緒論,主要介紹了在和軟x射線波段使用的一些光電
  11. Investigations are made of porous sic ( psc ), both as a potentially attractive material for fabricating uv light emitting diodes ( leds ), efficient photodetectors and hydrocarbon gas sensors, and as a novel substrate for epitaxy, chiefly because of its much higher photoluminescence ( pl ) emission efficiency than that from bulk sic

    作為一種有潛在吸引力的材料,多孔sic ( psc )可以用來制備發光二體、靈敏光、碳氫氣體和新穎的延材料,目前被廣泛研究。引起大家感興趣的一個原因就是psc比晶體sic有更高的發光強度。
分享友人
分享到 Line

分享到臉書