dispersion wavelength 中文意思是什麼

dispersion wavelength 解釋
色散波長
  • dispersion : n 1 分散,散開;散布,傳播;離散。2 【物理學】彌散,色散;【化學】分散作用;被分散物;分散相,分...
  • wavelength : 【無線電】波長。
  1. The spectrograph uses a concave diffraction grating that provides a wavelength dispersion of 4. 2a°/mm in the first order.

    光譜儀用了一塊凹面衍射光柵,第一級光譜的色散度為42埃毫米。
  2. Once the wavelength approaches the intermolecular distance, the specific dispersion relation becomes important

    一旦波長接近分子間的距離時,各自特定的色散關系就變得重要了。
  3. Zero material dispersion wavelength

    零材料色散波長
  4. Material dispersion wavelength

    材料色散波長
  5. Zero dispersion wavelength

    零色散波長
  6. We have calculated and plotted the curves of the refractive index, group velocity index, lowest - order and second - order dispersion indexes as a function of wavelength. the lowest - order and higher - order dispersion - induced broadening and deforming of light pulses is analyzed for various pulse shapes, such as gaussian, super - gaussian and hyperbolic secant pulses

    給出了折射率、群速指數、低階和二階色散系數隨波長變化的關系曲線,研究了高斯脈沖、超高斯脈沖和雙曲正割脈沖等超短脈沖在clbo晶體中傳播時,由於低階色散和高階色散引起的脈沖展寬和形變。
  7. The spectral and group delay characteristics are studied and the potential uses of this type of grating for wavelength selection and dispersion compensation are discussed. a novel scheme of oadm configuration based on linearly chirped moir fiber gratings is proposed. we have designed a lcmfg to compensate dispersions for eight channels at the same time

    在此基礎上,提出了一種新型的基於線性啁啾moir光纖光柵的光分插復用器( oadm )的結構設計方案;並設計出一種中心波長、相鄰中心波長間隔都符合itu規定的dwdm波長標準的基於線性啁啾moir光纖光柵的多通道色散補償器件。
  8. A new accurate method for measuring the birefringence of muscovite mica has been reported in terms of the dispersion relations of the indices and the variety relations between the phase delay and the wavelength

    摘要根據雲母折射率的色散關系和相位延遲隨波長變化關系,給出了一種測量雙折射率比較精確的方法。
  9. Conventional optical phase retarders are mostly designed by birefringent material. the refractive indices depend on the wavelength so strongly that the retardation is close to wavelength, here we call this dependent relationship the birefringent dispersion of material. this is the reason why conventional optical phase retarders are mostly applied to a single wavelength but ca n ' t be used to varied wavelength, so they are inconvenient to handle

    常規的光相位延遲器是由雙折射材料製成的,由於材料的雙折射率同波長密切相關,使其產生的相位延遲量也同波長具有嚴格的一一對應關系(即材料的色散現象) ,因而常規相位延遲片多用於單一波長,不同波長之間使用不可兼顧,這在使用中帶來諸多的不便。
  10. Wavelength dispersion measuring equipment

    波長色散量測器
  11. The optimization theory, optimum dispersion value, dispersion direction and the factors affecting on the imaging quality of planar image in wavelength multiplexing optical fiber image transmission system was deeply and th eoretically analyzed as the emphases in this article, and at the same time through the development of true optical fiber image transmission system ( optical fiber periscope ), the studying of making the image quality optimization of optical fiber image transmission system being useable and been used in engineering was completed

    其中,重點對波分復用光纖傳像系統二維圖像的像質優化機理、最佳色散量與最佳色散方向的選擇,以及影響系統成像效果的各種主要因素進行了深入的理論分析;並結合實際光纖望遠系統? ?光纖潛望鏡的研製,完成了光纖傳像系統像質優化的實用化、工程化實現研究。
  12. The results show that the fiber with chromatic dispersion that is a convex function of wavelength in normal dispersion region is favorable for generating a flat sc spectrum

    發現在光纖的正常色散區,色散曲線與波長的成凸型函數關系的色散特徵,有利於平坦光纖超連續譜的產生。
  13. 3 ) the new types of photonic devices based on sampled grating : multiple wavelength laser, wavelength multiplexer / demultiplexer, reconfigurable optical add / drop multiplexer, optical fiber sensor, and multiple channels dispersion compensator

    3 )取樣光柵構成的新型光子學器件:多波長激光器、波分復用解復用器、重構型光分插復用器、光纖傳感器及多通道色散補償器在光纖通信中的應用前景。
  14. In this paper, on the basis of increasingly mature fabrication technologies of planar integrated waveguide and the optical fiber grating, we make use of not only the ( de ) multiplexing and wavelength router characteristic of arrayed waveguide grating ( awg ), but also the dispersion peculiarity of uniform fiber bragg grating ( ufbg ). then a kind of dispersion compensator, which can compensate the dispersion of the optic signal in every channel in the wdm system respectively, is devised. the method makes the compensation efficiency maximum theoretically

    本文結合近幾年來日益成熟起來的平面集成波導製作工藝和光纖光柵製作技術,利用陣列波導光柵( awg )的復用特性和波長路由選擇特性與均勻光纖光柵( ufbg )的色散特性,提出了一種能對wdm系統中各分波光信號分別進行有針對性色散補償的補償器件,該器件使wdm系統中各分波光信號所得到的色散補償在理論上達到很高效率。
  15. On the other hand, a new technology using tunable laser as light source of delay system is proposed, which uses the characteristics of optical fiber material dispersion which means that the refraction index of optical fiber changes along with the difference of transmitting wavelength

    另一方面,提出一種通過採用可調諧激光器作為系統光源的技術,利用光纖的材料色散特性即光纖的折射率隨傳輸波長變化而改變的特點,來改變延時光纖中信號存儲的時間,從而達到提高光纖延遲線延時精度的目的。
  16. We derive the relationship between verdet constant of magneto - optic glass and operating wavelength by the dispersion theory of verdet constant. zf1 and zf6 magneto - optic glass are experimentalized to testify the relationship. the experimental results are in agreement with the theory

    對zf1 、 zf6磁光玻璃費爾德常數的色散特性進行了理論分析,得出磁光玻璃費爾德常數與工作波長的關系,並進行了實驗驗證,實驗結果和理論符合得較好。
  17. Numerical result illustrates that focal length becomes longer when incident wavelength becomes shorter, however the relationship between focal length and incident wavelength is n ' t absolute inverse ratio, it is that the increasing of focal length is faster than the decreasing of incident wavelength. at the same time the numerical result also show that scalar theory ca n ' t be used in the rigorous analysis of the dispersion property of subwavelength diffractive microlens

    然後研究了亞波長衍射微透鏡的色散特性,表明亞波長衍射微透鏡的焦距隨著波長變短而增加,但是波長與焦距之間並非簡單的完全反比例關系,而是隨著波長的減小焦距增加得更快,同時指出標量理論已不能準確分析亞波長衍射微透鏡的色散特性。
  18. Especially, linbo _ 3 optical modulators, using m - z waveguides and traveling - wave electrodes, are essential for high - speed and long - haul optical fiber transmission systems since the wavelength chirp is very small and the effect of the fiber dispersion is minimized

    採用行波電極的m - z型外調制器調制速率高,波長的啁啾噪聲理論上為零,幾乎不受光纖色散的限制,已成為高速長距離光纖傳輸系統必不可少的器件。
  19. Especially, linbo3 optical modulators, using m - z waveguides and traveling - wave electrodes, are essential for high - speed and long - haul optical fiber transmission systems since the wavelength chirp is very small and the effect of the fiber dispersion is minimized

    採用行波電極的m - z型外調制器調制速率高,波長的啁啾噪聲理論上為零,幾乎不受光纖色散的限制,已成為高速長距離光纖傳輸系統必不可少的器件。
  20. The series of single - mode optical fibres for telecommunication part 3 : characteristics of an extended wavelength band dispersion unshifted single - mode optical fibre

    通信用單模光纖系列第3部分:波長段擴展的非色散位移單模光纖特性
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