生物光學 的英文怎麼說
中文拼音 [shēngwùguāngxué]
生物光學
英文
photobiology- 生 : Ⅰ動詞1 (生育; 生殖) give birth to; bear 2 (出生) be born 3 (生長) grow 4 (生存; 活) live;...
- 物 : 名詞1 (東西) thing; matter; object 2 (指自己以外的人或與己相對的環境) other people; the outsi...
- 光 : Ⅰ名詞1 (照耀在物體上、使人能看見物體的一種物質) light; ray 2 (景物) scenery 3 (光彩; 榮譽) ...
- 學 : Ⅰ動詞1 (學習) study; learn 2 (模仿) imitate; mimic Ⅱ名詞1 (學問) learning; knowledge 2 (學...
- 生物 : living things; living beings; organisms; bios (pl bioi bioses); biont; thing; life生物材料 biol...
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The research on ultra - weak bioluminescence ( uwl ) has been one of the major branches in biophotonics. the possible mechanisms of uwl and summarizes the experimental results and detecting methods are discussed in this paper
生物超弱發光已成為生物光子學的重要研究方向之一.本文簡要介紹了生物超弱發光的主要實驗結果,並評述了生物超弱發光的可能機制及其檢測方法研究進展Abstract : the research on ultra - weak bioluminescence ( uwl ) has been one of the major branches in biophotonics. the possible mechanisms of uwl and summarizes the experimental results and detecting methods are discussed in this paper
文摘:生物超弱發光已成為生物光子學的重要研究方向之一.本文簡要介紹了生物超弱發光的主要實驗結果,並評述了生物超弱發光的可能機制及其檢測方法研究進展Photon diffusion theory and its application in biomedicine
光子擴散理論及其在生物醫學中的應用The excimer laser diopter correction and aberration correction have been proved efficiency and safety. based on cad / cam, applied optics, ophthalmology, biomedicine and computer techonlogy, this paper studied the principle of excimer laser aberration correction. the conception, cause of formation and representation of wavefront aberration are introduced
準分子激光治療屈光不正及消除像差的有效性和安全性已被證實,本學位論文將cad 、眼科視光學、波前像差技術、生物醫學技術與計算機技術等多學科理論交叉結合,系統敘述了人眼波前像差理論,包括波前像差概念、表示方法、測量方法和產生的原因等。Optical 3 - d profilometry has been widely used for 3 - d sensing, machine vision, intelligent robots control, industry monitoring, biomedicine, dressmaking, etc. several 3 - d object profilometry methods, including moire technique ( mt ), phase - measuring profilometry ( pmp ), fourier transformation profilometry ( ftp ), modulation measurement profilometry ( mmp ) have been exhaustively studied
光學三維傳感已廣泛應用於機器視覺,實物仿形,工業檢測,生物醫學等方面,在三維面形測量中,對莫爾輪廓術,位相測量輪廓術,付里葉變換輪廓術,調制度測量輪廓術這些方法已經進行了大量深入的研究。Objective : finite element method and photoelastic experiment were used to study the principle of stress and strain on knee joint from genu varum 30 degree to genu valgum 30 degree. biomechanics proofs were provided about it ' s bad effects and treatment on clinical
目的:本課題採用有限元和光彈性的實驗方法,研究膝關節由內翻30至外翻30之間的應力應變規律,為全面了解膝內、外翻所產生的不良後果和臨床治療該病提供生物力學依據。The xecl excimer laser have broad applications in industry manufacture, scientific research, biomedical engineering, nuclear fusion, photoelectron, semiconductor etc. today, the excimer laser has been used in the serial of haloid excimer laser mainly, such as xecl, krf, xef, arf excimer laser
準分子激光在工業製造、科學研究、生物醫學、核聚變、光電子、半導體等重要的課題研究領域上有廣闊的發展遠景。特別是準分子激光在光電材料、光電技術上有得天獨厚的優良性能。This is due to the fact that laser beams with a flat - top profile or other kinds of profiles are desired in various applications, such as in the applications of laser fusion, laser heat treatment and optical data processing etc. nevertheless most of study on the beam shaping is concentrated on the beam shaping of spatially completely coherent beams
光束整形之所以熱門,是因為這些特殊形式的光束可應用於激光光學及生物醫學等領域。例如,平頂光束可應用於激光核聚變、激光熱處理等領域。然而,研究者對部分相干光的光束整形的研究還很少。Professor che s project " reactive metal - ligand multiple bonded complexes " is among the foundations of metal - catalyzed organic reactions, bioinorganic chemistry and photochemistry
支教授的金屬配合物中多重鍵的反應性研究是有機催化無機生物化學和光化學發展的基礎。Professor che pioneered the chemistry of reactive ruthenium - ligand multiple bonded complexes, which he subsequently used to elucidate the mechanisms of atom and group transfer reactions with organic substrates. he discovered a series of biomimetic chemical reactions applicable to the synthesis of pharmaceuticals and fine chemicals. he also pioneered the photochemistry of phosphorescent metal complexes and synthesized, by photochemical means, novel types of reactive molecules that exhibit unique properties and reactivities unreachable by ground state molecules
支教授創立活性釕多重鍵配合物化學並用於揭示原子和基團向有機底物轉移的反應機理開拓一系列可應用於藥物合成和精細化學品合成的仿生物化學反應創立磷光金屬配合物光化學,並利用光化學方法合成具有基態分子所無法達到的特殊性質和反應性的新穎物種。Water quality - physical, chemical and biochemical methods - determination of aluminium - spectrometric method using pyrocatechol violet
水質.第2部分:物理化學和生物化學法.第49節:鋁含量測定:鄰苯二酚紫光譜測定法It ' s still an open question for thorough discussion to the analysis of mixture ' s raman spectroscopy. in this thesis, we first introduce the main theory of raman spectroscopy, including the mechanism it occurs, the physical explanation, the basis of quantitative analysis, etc. then new types of raman technique such as nir - ft raman, rrs, sers, microscope raman and co - focus raman, fiber raman, etc. are discussed. and the main applications of raman spectroscopy on chemistry and material science, medicine, biology, judging and identifying science, industry, environmental protection, geology and archeology, etc. are introduced
接著分別介紹了各種新興的拉曼光譜技術如近紅外-傅立葉變換拉曼光譜( nir - ftraman ) 、激光共振拉曼光譜( rrs ) 、表面增強拉曼光譜( sers ) 、顯微拉曼光譜及共焦顯微拉曼光譜,光纖拉曼光譜等,簡述了拉曼光譜在化學和材料科學、醫藥學、生物科學、法庭和鑒定科學、工業生產、環境保護、地質考古等各個領域的應用情況。Water quality - physical, chemical and biochemical methods - determination of phenol index : 4 - aminoantipyrine 4 - aminophenazone spectrometric methods after distillation
水質.第2部分:物理化學和生物化學法.第12節:酚指數測定.蒸餾后4 -氨基安替比林光譜測定法Water quality - measurement of biochemical parameters - spectrometric determination of the chlorophyll - a concentration
水質.生物化學參數的測量.葉綠素濃度的光譜測定法With the progress in electronics, information technology and optics technology, biomedical engineering will be a means to develop newer and better medical equipment and clinical methods in the next millennium
在未來的廿一世紀,隨著電子學、信息技術、和光學的發展,生物醫學工程將給人類提供更新、更好的醫療手段和設備。Along with the development of the cytobiology and the molecular biology, and thoroughly research of the biophysics, the biochemistry, the genetics and immunology, it has cultivated the modem biological technology, such al genetic engineering, cellular engineering, enzyme engineering, fermentation engineering and so on, to change biology characteristic to carry on the material transformation, has formed the front biological examination technology : the dna probe, the pcr technology, the molecular mark, the bioluminescence technology, genechip technology and so on the widespread application of these advanced biotechnologies in dairy industry baa impelled the dairying technical transformation, and has been having vital significance to dairy production, research and dairy product security
摘要隨著細胞生物學和分子生物學的發展及對生物物理、生物化學、遺傳學和免疫學研究的深入,培育了基因工程、細胞工程、酶工程、發酵工程等改變生物特性進行物質轉化的現代生物技術,形成了dna探針、 pcr技術、分子標記、生物熒光技術、基因晶元技術等前沿性的生物檢測技術,其在乳品工業中的廣泛應用,推動了乳業的技術變革,對乳品生產、研究和乳品安全意義重大。Water quality - physical, chemical and biochemical methods - method for the determination of borate by spectrometry using azomethine - h
水質.第2部分:物理化學和生物化學法.第40節:甲亞胺- h光譜法測定硼酸鹽Water quality - physical, chemical and biochemical methods - determination of iron : 1, 10 - phenanthroline photometric method
水質.第2部分:物理化學和生物化學方法.第2節:含鐵量測定: 1 . 10 -菲咯啉光度法Due to its supper - resolution imaging ability and its unique three - dimensional microfabrication ability. it has been widely used in life science, 3d - optical data storage, and lithographic microfabrication. the imaging principles of confocal microscopy have been discussed extensively by many authors, but all of those theories did n ' t account for the nonlinear effect of two - photon excitation
近十多年來,其理論研究和應用研究都取得很大進展,特別是雙光子共焦顯微鏡,由於具有極高的空間解析度和特有的三維處理能力,因而在生物醫學研究、三維高密度存儲以及三維微細加工等領域具有變革性的應用潛力,取得了許多突破性進展,已成為光學及其交叉學科中最誘人、最活躍的研究領域之一。Photoluminescence characteristics of four hemicyanine derivatives with similar molecular compositions but different donor - acceptor groups in langmuir - blodgett ( lb ) films have been studied by steady state and time - resolved fluorescence spectroscopies. the study mainly include the aggregation behavior of hemicyanine derivatives in lb films, the influence of the donor - acceptor on the excited level and excited lifetime of the hemicyenine derivatives
通過改變半花菁的親水基團與疏水基團而得到了四種半花菁衍生物,利用穩態和時間分辨熒光研究了不同親水基團與疏水基團對半花菁衍生物光學特性的影響.主要包括半花菁衍生物在lb膜中的聚集特性,親水基團與疏水基團對半花菁衍生物激發態壽命的影響等分享友人