無損耗波導 的英文怎麼說

中文拼音 [sǔnhàodǎo]
無損耗波導 英文
lossless waveguide
  • : 無Ⅰ動詞(沒有) not have; there is not; be without Ⅱ名詞1 (沒有) nothing; nil 2 (姓氏) a surn...
  • : Ⅰ動詞1 (減少) decrease; lose 2 (損害) harm; damage 3 [方言] (用尖刻的話挖苦人) speak sarcas...
  • : Ⅰ動1 (減損; 消耗) consume; cost 2 [方言] (拖延) waste time; dawdle Ⅱ名詞1 (壞的音信或消息) ...
  • : Ⅰ名詞1 (波浪) wave 2 [物理學] (振動傳播的過程) wave 3 (意外變化) an unexpected turn of even...
  • : 動詞1. (引導) lead; guide 2. (傳導) transmit; conduct 3. (開導) instruct; teach; give guidance to
  • 損耗 : 1. (損失消耗) loss; wear and tear; deterioration; waste 2. [商業] wastage; spoilage
  • 波導 : [物理學] (用在微波波段傳輸電磁波的裝置) waveguide; duct
  1. Basing on other researchers ’ work, this paper has put forward a novel type of icc ( induced current cancellation ) shielding layer for rfic / mmic performance improvement, to reduce high frequency loss, increase q value, and expand its application frequency range. and present how to realize rfic / mmic components such as i / o pad, inductors, baluns and so on by applying icc shielding layer structures. furthermore co - design methods of ic component structure and foundry process structure designs has been presented in this thesis

    線通信技術對cmos射頻/微集成電路需求的大背景下,本論文提出了用於高頻集成電路( rfic / mmic )器件的各類新型icc ( inducedcurrentcancellation ,感應電流相消)屏蔽工藝結構,由此設計製造的ic部件解決了傳統半體工藝法實現射頻/微集成電路的難題,以達到降低高頻集成電路器件的高頻,提高器件q值以及擴寬器件應用頻帶的目的。
  2. These solutions are basically focused on reducing low - si substrate conduction and loss, resulting in an elimination of wave propagation in the substrate, and ther efore improving the performance of the passive elements. they are accompanied by drawbacks

    以上方法基本是集中在改善低阻硅襯底的傳和降低,來改善射頻微源器件的性能,但這些方法均存在許多不同程度的缺陷。
  3. A low loss planar waveguide by using organic - inorganic sol - gel

    有機機混合溶膠凝膠的實驗研究
  4. In order to measure the characteristics of such semiconductor optical amplifier, we adopted a set of measurement system. this measurement system can be used to measure the characteristics of all kinds of active or inactive optical passive components. such device presents good polarization insensitivity ( < 0. 9db ), wide 3db bandwidth ( > 33nm ) at 0 - 200ma and different input signal light wavelength and power, the maximum fiber - to - fiber gain of 10db, lossless operation current of 50 - 75ma for different input signal light wavelength and power, large extinction ratio ( > 50db ) and lower noise figure ( nf ) ( < 8db )

    與張瑞英博士一起,首次利用該種有源區結構制備出偏振不靈敏半體光放大器,並在0 - 200ma注入電流范圍內獲得33nm的3db帶寬,在不同信號長,不同信號功率0 - 200ma的注入電流范圍內,偏振相關均《 0 . 9db ,在耦合差為7db / facet的條件下,最大fiber - to - fiher增益達10db ,操作電流為50 - 70ma ,消光比達50db以上,而噪聲指數則低於8db ,最小可達4 . 6db 。
  5. As a planar structure, microstrip fit for hybrid integrity, but their disadvantages also exist : the dissipation loss caused by conductor, radiation, and dielectric, therefore, they are not suitable to be used in millimeter wave applications and couldn ’ t compose high q passive components

    微帶線作為一種平面電路結構,適合於系統的混合集成,但是這種結構也存在一定的缺陷,由於、輻射和介質的存在,使得它不適于工作在毫米段,也法構成高q值的部件。
  6. In this thesis, a novel structure of silicon - based passive ring waveguide resonation cavity is firstly introduced and designed. the design is combined with the mems technology, which gets rid of the curved waveguides in the previous waveguide ring resonation cavity and facilitates optical integration. the structure has characteristic of " the smaller the resonation cavity, the smaller the loss ", which has a promising future of miniaturization and fits the field of resonation rmog

    本文首次提出並設計了一種新結構的硅基源環形式諧振腔,該設計與微機械技術相結合利用集成反射鏡實現光直角轉彎,擺脫了以前的式環形諧振腔中必需包含的彎曲,易於光學集成;同時該結構具有諧振腔越小就越小的特點,有很好的微型化前景,很適合應用於諧振式微光陀螺( rmog )領域。
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