激發光 的英文怎麼說
中文拼音 [jīfāguāng]
激發光
英文
excitation light-
Absorption, fluorescence emission and excitation spectra of five pigment - protein complexes were determined. photosynthetic electron transfer was measured from the dcip photoreduction. p700 concentration was assayed from the ferricyanide - oxdised minus ascorbate - reduced difference spectrum
測定裙帶菜各色素蛋白復合物的吸收光譜、熒光發射光譜和熒光激發光譜,並進行了dcip的光還原測定和化學法的氧化還原差示光譜測定。Optically stimulated luminescence dosimetry systems
光學受激發光劑量測定系統Electroluminescence display eld
電激發光顯示器The ps ii native fractions ( 20 % and 30 % ) were loaded onto a deae column. the fraction eluted with 150 mm nacl was presented dcip reduction activity and was highly depleted in chi c and xanthophylls, and as such could be considered a ps ii core complex
對于有dcip光還原活性的20和30層帶的復合物,進一步deae離子交換層析純化。 150mmnacl洗脫純化后的樣品經過熒光激發光譜測定發現,已經去除了葉綠素c和墨角藻黃素,並且仍然具有dcip的光活性,分析是ps核心復合物。Argon laser induced auto - fluorescence spectra of normal tissue, benign adenoma and cancer of thyroid were investigated in vitro
摘要用氬離子激光器作為激發光源,對甲狀腺正常組織、良性瘤及癌的離體組織標本進行了激光誘導組織自體熒光光譜分析。Under visible light excitation titanic acid and titanate sodium nanotubes showed a relatively intense emission, which red shifts with the increase of excitation wavelength. under humid conditions this photoluminescence of titanic acid nanotubes was not stable. the intensity decreased, and the emission peak was at 480nm, which cannot shift with the change of excitation wavelength
鈦酸和鈦酸鈉納米管在使用可見光激發時,都能產生光致發光現象,當使用不同波長的可見光激發鈦酸和鈦酸鈉納米管時,能夠得到不同強度的發光譜帶,且發光峰的位置隨著激發光的變化發生較大范圍的移動。Organic electro - luminescene display oel
有機電激發光顯示器Photo - luminescence method
光激發光法It was found that the overall features of the raman spectra depend strongly on the confocal depth
研究結果表明:在不同的激發光聚焦深度,聚苯胺膜的拉曼光譜有明顯變化。The language of one are macro commands that invoke all the language of light single, dual, tri and quad tones
全一之語是對同時激發光之語中所有單音、雙音、三音和四音的高度掌握。The uv lamp used should be operating at the wavelength that is effective to trigger the photocatalytic oxidation reaction
所採用的紫外光燈必須能夠釋放出有效激發光催化反應的紫外線波段。1 the uv lamp used should be operating at the wavelength that is effective to trigger the photocatalytic oxidation reaction
1所採用的紫外光燈必須能夠釋放出有效激發光催化反應的紫外線波段。Fluorescent microscope observation results indicated there was fluorescence in ybt1765 - 72b. but there was no fluorescence in y
熒光顯微鏡觀察結果表明ybt1765一72b在激發光下可以發射綠色熒光。The study of si nanostructures is a very active field of research because of their strong room temperature photoluminescence
由於在室溫下奈米矽可以產生很強的光激發光,因而引起廣泛地研究與討論。For instance, the phosphor on a crt screen needs to be constantly reactivated by an electron beam in order to remain illuminated
例如,陰極射線管熒光屏上的磷光體為了保持它激發光狀態,需要用電子束不斷地再激勵。It is found that the exciting spectra is moving to long wave with the increasing of eu concentration, emission intensity is rising, the properity of red homochromy is becoming better because of the different quench concentration of emission levels 5do, 5dj and 5d2 - when the concentration of eu is up to 1. 2mol %, the emission levels 5di and 5d2 is quenching
研究發現,隨著eu濃度的增加,熒光體y2o2s : eu激發光譜發生紅移,發射強度增大,紅色單色性變好,這是因為eu的5d0和sdl 、 5d2發射能級躍遷發光的淬滅濃度不同,當濃度1 . 2mol時,后兩者因交叉弛豫引起濃度淬滅。By the study of the whole decay curves of 10 hours, the influence of each step is summarized, and the best stoichiometry and preparation techniques are acquired. the crystal structure of sral2o4 eu2 +, dy3 + is monoclinic system, which is a high efficiency luminescence crystal structure. the emission spectrum and the excitation spectrum of sral2o4 eu2 +, dy3 + powder are measured
此外,通過x射線衍射譜確定了所制備的sral _ 2o _ 4 : eu , dy長余輝材料晶體為單斜晶系結構,並測量其發射光譜,激發光譜,初步討論了sral _ 2o _ 4 : eu , dy長余輝蓄能材料可能的發光機理。Xrd patterns, excitation spectra, emission spectra, photo - stimulated emission spectra, photo - stimulated emission decay curves and thermo - luminescence spectra have been measured on the samples
對樣品進行了x射線衍射分析( xrd ) 、激發光譜、發射光譜、光激勵發光光譜、光激勵發光衰減和熱釋光譜測定。Furthermore, the excitation spectrum for 730nm fluorescence shows that the 685nm light has high excitation efficiency
葉綠體730nm熒光成份的激發光譜實驗結果表明: 685nm光對730nm熒光有較高的激發效率。So the selection rule of no is analogous to that of alkali atom and different from the usual diatom molecule. the conclusion is further affirmed by the two photon fl uorescence excitation spectrum of no
為此我們利用雙光子熒光激發光譜技術對no分子所表現出的與普通雙原子分子不同的躍遷選擇定則進行了實驗驗證。分享友人