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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/69205

    Title: 以鈮酸鋰晶體為基板製作3Gbps頻寬之快速光學調製器;Optical Modulator of 3Gbps bandwidth based on LiNbO3 Crystal
    Authors: 吳宗霖;Wu,Tsung-Lin
    Contributors: 光電科學與工程學系
    Keywords: 鈮酸鋰;鈦擴散;光調製器;lithium niobate;titanium indiffused process;optical modulator
    Date: 2015-10-23
    Issue Date: 2015-11-04 17:28:57 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 現今資訊時代的快速爆炸發展,資訊的傳輸量越趨龐大,並因世界網路
    本文製作出使用1550nm 光源之3Gbps 電光快速調製器。我們採用Z 切
    原理來達成,馬氏干涉儀波導的設計採用商用軟體R-Soft 來輔助完成,波
    μm、S-Bend 長度為6000μm 單模傳輸之馬氏干涉儀(Mach-Zehnder)結構。
    電極設計使用高頻模擬軟體(High Frequency Structure Simulator,
    HFSS),並以高頻電訊號傳輸中常使用的共平面波導(Co-Planar Waveguide)
    (S21)達40GHz 以上,電傳輸反射訊號(S11)低於-18dB。緩衝層我們使用傳統
    配的條件,並採用1μm 的厚度來搭配調製器的設計。且為了能夠在與速度
    成功製作電極厚度高達21μm 的厚黃金電極。
    最後完成全長為3.4cm,直波導在TM 模態下的傳播損耗為
    0.8735dB/cm,而馬氏干涉儀於TM 模態下的傳播損耗為0.9911 dB/cm,厚
    下具有3Gbps 之頻寬響應,而其驅動電壓經量測為6V。;Today the era of the information explosion are rapid development, data
    transportation increasingly more large, and because the development of network
    of information exchanging between countries are more important, a large
    number of undersea fiber transportation system have been built, and lithium
    niobate with its excellent optical properties, and compared with telecom
    transmission, it’s more difficult to stolen and tampered, with the low driving
    energy required it’s in line with the policy of world energy trends and applies in
    many regions. With the advent of optical communication era, none of countries
    not to attach this regions.
    Ultra‐fast electro‐optical modulator for optical communication industry is an
    essential element, which is made by the advantages of titanium in:diffused
    process, with low propagation loss, high bit rate, highly application, low driving
    energy, and low signal to noise ratio, low ambient temperature affect being
    adopted in the relevant countries, like Americas, Europe, Japan, etc....... the
    island or cross‐border fiber‐optic network in submarine cables. And Taiwan has
    also carried out related research and development by way of industry‐university
    cooperation, achieved its related products can be developed independently,
    keeping up with the world countries, wish to complete a variety upgrading and
    development of related industries.
    In this thesis using the 1550nm light source to produce a ultra‐fast electrooptic
    modulator with 3Gbps bandwidth. We used a Z‐cut lithium niobate crystal,
    using its high electro‐optic coefficient, and in accordance with the principles of
    electro‐optic effect, Mach‐Zehnder interferometer waveguide is designed by
    using commercial software R‐Soft, the type of waveguide was produced with
    titanium in:diffused process, to design the waveguide width of 7μm, arm gap
    width of 60μm, S‐Bend length of 6000μm single‐mode transported in Mach‐
    Zehnder interferometer structure. Electrode design using a commercial software
    “High Frequency Structure Simulator, HFSS” and layout the coplanar waveguide
    electrode structure which suit on high‐frequency electrical signal transmission,
    driving electrode of modulator was made by gold achieved the bandwidth(S21)
    of electrical transmission to 40GHz or more, the reflection signal (S11) of
    electrical transmission and less than ‐18dB. We use silicon dioxide as
    conventional buffer layer on semiconductor industry with atomic vapor
    deposition equipment, in order to reach our velocity matching conditions and
    thickness of buffer layer is 1μm to suit the modulator design. And we try to reach
    a better velocity matching conditions, we must use thicker electrodes structure,
    so we developed the electroplating systems, using eco‐friendly gold plating
    solution as material, successfully fabricated thickness of electrode up to 21μm
    at ambient temperature at 35 ℃
    Finally we achieved the total length of 3.4cm, the propagation loss of
    straight waveguide under TM mode transmission is 0.8735dB / cm, while Mach‐
    Zehnder interferometer propagation loss is 0.9911 dB / cm under TM mode, we
    use Network Analyzer to measure the S‐parameter which bandwidth(S21) up to
    21.3GHz and reflection(S21) signal are lower than ‐15dB, and achieved the
    frequency response of 3Gbps bandwidth under driving voltage is 6V with the Eye‐
    Appears in Collections:[光電科學研究所] 博碩士論文

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