輻射強度比率 的英文怎麼說

中文拼音 [shèqiáng]
輻射強度比率 英文
subject contrast
  • : 名詞(車輪中車轂和輪圈的連接物) spoke
  • : Ⅰ動詞1 (用推力或彈力送出) shoot; fire 2 (液體受到壓力迅速擠出) discharge in a jet 3 (放出) ...
  • : 強形容詞(強硬不屈;固執) stubborn; unyielding
  • : 度動詞[書面語] (推測; 估計) surmise; estimate
  • : Ⅰ動詞1 (比較; 較量高下、 長短、距離、好壞等) compare; compete; contrast; match; emulate 2 (比...
  • : 率名詞(比值) rate; ratio; proportion
  • 輻射 : radiation; exposure; radio; beaming
  • 比率 : ratio; proportion; rate比率計 ratio meter
  1. Compared with current instruments, the setup can decrease disturbance of disorder radiation by using double layer refractive index sample matching vessel, and it can increase collecting and transmitting efficiency of radiation by adopting single mode fiber with gradient refractive index lens. with a low power laser, the sample has a low scathe, and the laser and the measurement system can be integrated conveniently

    與現有的同類型儀器相,該儀器採用雙層折樣品匹配池減少了雜散光的干擾;採用帶梯透鏡的單模光纖接收、傳輸散光信號提高了散光的收集傳輸效;用低的激光避免了對樣品的損傷,同時可以使激光器和系統集成在一起,整個系統小型實用。
  2. Spontaneous emission can be totally suppressed or strongly enhanced depending on the relative position of the resonant frequency from the edge of the photonic band gap and the photonic mode density. several novel phenomena can be obtained. the spontaneous emission displays an oscillatory behavior, classical light localization, photon - atom bound state, nonzero steady - state population and anomalously large vacuum rabi splitting. and localized mode associated with a defect site in an otherwise perfect photonic crystals, acts as a high - q micro - cavity

    通過原子上能級與光子頻帶隙邊緣的相對位置或者光子態密,可以抑制或增原子的自發。分析並得到了一些奇異的現象,如自發的諧振子行為、光的局域、單光子?原子局域態、上能級中存在非零穩態原子布居數、類似於真空中的拉分裂等。
  3. 3. on boiler retrofit, the calculation of fuel burning, the heat calculation of boiler inside structure and convection section, and the design of structure parameter of feed water heat exchanger are made. the flue gas channels " resistance calculation and the boiler strength verifying are also carried out. replacement of water cooling wall improves heat exchanging and decreases loss of heat radiant

    對鍋爐本體進行了燃料燃燒計算、爐膛結構熱力計算、對流受熱面結構熱力計算、鍋爐給水加熱器結構參數設計、煙道阻力計算及鍋爐元件校核等;改進了水冷壁布置使換熱效果更好,減少換熱損失;改進對流段結構,更充分的利用爐膛出口煙氣余熱,提高熱效;並且進行了煙氣阻力計算、熱效計算和能量平衡測試,對改進后的稠油燃料和改進前進行了對,燃燒狀況和熱效有明顯改善。
  4. Comparing of the ratio of 550nm emission intensity to 525nm in samples annealed at different temperature and times, the results obtained from a fit of the integrated intensity for these two emission indicated the change of radiative transition probability at different energy level are different

    通過較不同退火溫和時間樣品的兩者發光變化的不同,發現兩者的激發機理不同。通過較不同樣品的525nm和550nm發值隨退火條件的變化以及這兩個發光的積分的變溫擬合結果說明退火對不同能級的躍遷幾的影響不同。
  5. Applying dh can enhance the injection ratio, strengthen the confinement to the carrier and enhanced the efficiency of the recombination. this make the brightness greatly enhance

    Dh結構不僅提高了載流子注入並且加了載流子限製作用,提高了復合的效,使得hb - led的亮大幅提高。
  6. 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, zno薄膜具有生長溫低,激子復合能高( zno : 60mev , gan : 21 25mev ) ,受激閾值較低,能量轉換效很高等優點。有可能實現室溫下較的紫外受激發,制備出性能較好的探測器、發光二極體和激光二極體等光電子器件。
  7. The bigger the diameter, the high the heat efficiency, but the weak the temperature increasing ability, length has less effect on the heat efficiency, tilt angle has less effect on the flow field and temperature field while it is larger than 30 degree, vacuum degree and emissivity have great effect on the flow field and temperature field while there is a great temperature difference between the liquid in the tube and the surroundings, the furring has less effect on the heat transfer but should be cleaned up in 3 - 5 years because of poor water quality, the higher the solar flux or the more the temperature difference between the liquid and the surrounding, the more the heat loss and the lower the heat efficiency

    分析了各種因素對太陽能真空集熱管流場和溫場的影響。直徑越大,熱效越高,但升溫能力弱;長對熱效影響不大;傾斜角大於30后,自然對流已經能夠充分進行,考慮以能夠吸收到最大太陽為主;真空和發對熱效和溫場影響很大,尤其是在介質溫與環境溫差異較大時;水垢對傳熱影響較小但由於水質的問題應該被3 5年清洗一次;太陽越大,介質溫與環境溫差異越大,熱損失越大,效越低; 4
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