mirror interferometer 中文意思是什麼
mirror interferometer
解釋
反射鏡干涉儀- mirror : n. 1. 鏡;反射鏡。2. 反映;借鑒;榜樣。vt. 映,反射;反映。
- interferometer : n. 【物理學】干涉儀,干擾計。adj. -metric ,-etry n.
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A discussion on measurement of curvature radius of spherical mirror through michelson interferometer - newton ' s ring interference
牛頓環干涉法測定球面鏡曲率半徑的討論 -
The actively and passive mode - locked fiber ring laser and two types of photonic switching, slalom ( semiconductor laser amplifier loop mirror ) and uni ( ultrafast nonlinear interferometer ) were developed. this thesis presented the principle and the requirements for the optical of frequency - shift sampling module under common conditions
研製了作為光取樣脈沖源的主動鎖模和被動鎖模光纖激光器;半導體光放大器環鏡及超高速非線性干涉儀的光子開關,並進行了頻差法光取樣、異步光取樣及基於時分光取樣的光子模數轉換的實驗研究。 -
Point diffraction interferometer - a physical idea, is invented by smartt and strong in 1972, advanced by smartt and steel, and used to test astronomical telescope, it has simple structure and has not special demand to source. recently. with the development of fiber ' s manufacture and coupling technology. the simple modern fiber ' s center is smaller than before, this make it possible to progress fiber point diffraction interferometer ( pdi ), in addition to test convergent wavefront, it can test the reflective concave. the excellence of pdi is that it does not need standard mirror. in intereference testing, the standard mirror is the main reason which limit the improvement of precision, pdi can avoid difficulty to provide the wide future for high precision testing. pdi, which produce the standard sphere wavefront, is an instrument which realize the phase shifting with piezoelectric transducer ( pzt ), and collect the interferogram with ccd, in this paper, a adjusting methord is described, then data processing is obtained
點衍射干涉儀這一物理思想,早在1972年smartt和strong就已發明,由smartt和steel做了進一步發展,並成功的用於檢測天文望遠鏡,它結構簡單,對光源沒有特殊要求,近年來,由於光纖製造工藝以及耦合技術的發展,單模光纖纖芯不斷縮小,為光纖點衍射干涉儀得以發展提供了前提條件,該干涉儀由激光照明,除了檢測會聚波前外,還可以用來檢測反射凹球面,進而應用到單個面形的檢測;另外,光纖點衍射干涉儀最大的優點是不需要標準鏡,在干涉檢測中,標準鏡是檢測精度受限的很大原因,光纖點衍射干涉儀能繞開這一難度,為進行高精度的光學檢測提供了廣闊的前景。 -
This paper analyzes the non - symmetry of elliptic polarization oftwo linear polarized beams, which are perpendicular to each other, caused by their reflecting from a metal mirror. also, it studies the non - linear error created by polarization and how the errors change. the study is very important for improving the measuring accuracy of polarized heterodyne interferometer
主要分析兩束相互垂直的線偏振光經過金屬反射鏡反射后引起的橢圓偏振化的不對稱性,並研究由此產生的非線性誤差的變化規律,這對提高偏振光外差干涉儀的測量精度是極為重要的。 -
Abstract : this paper analyzes the non - symmetry of elliptic polarization oftwo linear polarized beams, which are perpendicular to each other, caused by their reflecting from a metal mirror. also, it studies the non - linear error created by polarization and how the errors change. the study is very important for improving the measuring accuracy of polarized heterodyne interferometer
文摘:主要分析兩束相互垂直的線偏振光經過金屬反射鏡反射后引起的橢圓偏振化的不對稱性,並研究由此產生的非線性誤差的變化規律,這對提高偏振光外差干涉儀的測量精度是極為重要的。 -
The emphasis was put on the main factors affecting its performance, such as : drift of the average frequency of interferometer ; drift of frequency difference of interferometer ; the changes of the interference add - on term of the gaussian beam during the measurement and its effects on the phase changes, as well as the relationship between the changes of the interference add - on term of the gaussian beam during the measurement with the movement of the measurement mirror
對雙頻激光干涉儀的工作原理進行了理論分析,著重分析了其主要影響因素:雙頻激光平均頻率漂移;雙頻激光差頻漂移;高斯光束干涉附加項在測量過程中的變化及其對相位變化的影響,與測量鏡運動引起的程差變化的關系。 -
So it is very important to study the method and technology by dual frequency laser interferometer without orbit. and it is a significative task to study a kind of instrument to measure automatically without orbit. this paper adopts a measurement project to track the measurement reflector mirror without orbit by theoretical analyzing and simulant experiment
本文通過理論分析和模擬實驗,確定採用一種外置光路激光跟蹤測量的方法,即:在雙頻激光干涉儀前面,設置一個兩維跟蹤反射鏡,當測量反射鏡移動時,測控系統驅動控制兩維跟蹤反射鏡旋轉,跟蹤測量目標靶鏡的運動,保證測量信號不中斷,從而實現跟蹤測量。 -
The primary and secondary mirrors of the schwarzschild optics were fabricated in our institute and measured using zygo mark iv interferometer. figure errors were observed in both primary and secondary mirror of 5nm ( rms ). these magnitudes are very small at visible wavelength but sufficient to cause significant degradation in the wave - front quality of the schwarzschild optics in extreme ultraviolet ( euv ) wavelength
利用zygomark干涉儀檢測的schwarzschild微縮投影物鏡主、次鏡面形精度表明,對可見光工作波段已具有足夠高的面形精度,均為5nm ( rms ) ,但在euv ( extremeultraviolet )波段,將給schwarzschild微縮投影物鏡帶來嚴重的波面誤差。 -
Muti - aperture overlap - scanning technique ( maost ) and target function can solve the problem of testing a large optical surface on the basis of ordinary digital interferometer of wavefront, and get the most information of wavefront in the end in the condition of big kr, muti - aperture overlap - scanning technique ( maost ) using target function is proved and we can get the most information of wavefront in the case of guarantee of high precision by the aid of simulation, experimental and tests, many influential factors, i. e., the apertureconnection mode, shape of mirror, error in subaperture test and kr are analysed contribute to controlling and testing large optical surface
本文首先在較大孔徑放大系數( 4 )的情況下,論證了目標函數多孔徑拼接技術,保證了較高的精度,得到較完整的波前信息。然後,結合實驗結果,從拼接模式、被測面形、測量誤差、數字干涉儀解析度和不同孔徑放大系數等角度出發,分析了各種因素對精度的影響,並詳盡的探討了各種誤差源,包括靜態誤差、動態誤差、擬合誤差、拼接誤差。
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