光子学报
光子學報
광자학보
ACTA PHOTONICA SINICA
2009年
12期
3264-3268
,共5页
刘明%卜胜利%孙国庆%戴敏%顾铮(先)
劉明%蔔勝利%孫國慶%戴敏%顧錚(先)
류명%복성리%손국경%대민%고쟁(선)
磁性液体%磁场%衍射%特征时间
磁性液體%磁場%衍射%特徵時間
자성액체%자장%연사%특정시간
Magnetic liquid%Magnetic field%Diffraction%Characteristic time
设计了一套用于研究磁性液体的场诱导静态和动态光衍射特性的实验装置.通过在样品的后方放置一个适当孔径的光阑,实现了定量研究其衍射特性的目的.采用沿衍射方向移动光阑的方法定量地研究了衍射光的空间分布.设计了一个指数衰减函数用来拟合动态衍射实验的数据,获得动态衍射的特征时间.以两种不同浓度的表面包覆型水基氧化铁磁性液体样品为例,定量地实验研究了其场诱导光衍射特性与外磁场强度和样品浓度的关系.结果表明,磁性液体的场诱导结构对光的静态和动态衍射与外磁场的强度和磁性液体的浓度有关.其静态衍射与外磁场强度呈非单调的关系;其动态衍射的特征时间与外磁场的强度成反比,与磁性液体的浓度成正比.对实验中观察到的场诱导静态和动态衍射特性的物理机理进行了详细的分析.
設計瞭一套用于研究磁性液體的場誘導靜態和動態光衍射特性的實驗裝置.通過在樣品的後方放置一箇適噹孔徑的光闌,實現瞭定量研究其衍射特性的目的.採用沿衍射方嚮移動光闌的方法定量地研究瞭衍射光的空間分佈.設計瞭一箇指數衰減函數用來擬閤動態衍射實驗的數據,穫得動態衍射的特徵時間.以兩種不同濃度的錶麵包覆型水基氧化鐵磁性液體樣品為例,定量地實驗研究瞭其場誘導光衍射特性與外磁場彊度和樣品濃度的關繫.結果錶明,磁性液體的場誘導結構對光的靜態和動態衍射與外磁場的彊度和磁性液體的濃度有關.其靜態衍射與外磁場彊度呈非單調的關繫;其動態衍射的特徵時間與外磁場的彊度成反比,與磁性液體的濃度成正比.對實驗中觀察到的場誘導靜態和動態衍射特性的物理機理進行瞭詳細的分析.
설계료일투용우연구자성액체적장유도정태화동태광연사특성적실험장치.통과재양품적후방방치일개괄당공경적광란,실현료정량연구기연사특성적목적.채용연연사방향이동광란적방법정량지연구료연사광적공간분포.설계료일개지수쇠감함수용래의합동태연사실험적수거,획득동태연사적특정시간.이량충불동농도적표면포복형수기양화철자성액체양품위례,정량지실험연구료기장유도광연사특성여외자장강도화양품농도적관계.결과표명,자성액체적장유도결구대광적정태화동태연사여외자장적강도화자성액체적농도유관.기정태연사여외자장강도정비단조적관계;기동태연사적특정시간여외자장적강도성반비,여자성액체적농도성정비.대실험중관찰도적장유도정태화동태연사특성적물리궤리진행료상세적분석.
An experimental setup is designed to investigate the field-induced static and dynamic diffraction properties.The corresponding diffraction properties are investigated quantitatively by putting a diaphragm with an appropriate aperture behind the sample.By moving aperture along diffraction to study quantitatively the spatial distribution of light diffraction.An exponentially decaying function is applied to fit the experimental data of the dynamic diffraction,and the corresponding characteristic time is obtained.The dependence of the field-induced diffraction properties on the magnetic field strength and the sample concentration is investigated.The static and dynamic light diffraction of the field induced magnetic liquid structure depends on magnetic field intensity and the concentration of magnetic fluid.The relationship between diffraction and external static magnetic field strength is non-monotonic.The dynamic diffraction's characteristic time is inversely proportional to the intensity of external magnetic field and directly proportional to the concentration of magnetic fluid.
