19,503 research outputs found
Tsung-Jui Wu PhD Dissertation Appendix
No full textThis dataset includes supplemental materials of the Ph.D. thesis of Tsung-Jui Wu (UH ID: 1618063). Four appendices are listed below:
Appendix A Compiled published age and Nd-Sr isotopic composition of late Cretaceous to Cenozoic NE Asia igneous rock
Appendix B Data and reference of the early Cretaceous adakitic rocks in NE Asia
Appendix C New zircon U-Pb age result of Sikhote-Alin igneous rocks
Appendix D Whole-rock geochemical result of SIkhote-Alin igneous rock
Wu Yaozong/ Wu Yao-tsung
No full textWu Yaozong/ Wu Yao-tsung was a Protestant intellectual in China who launched the Three Selfs Patriotic Movement in 1954. China. B/W Photo. ca. 1960shttps://digitalcommons.whitworth.edu/cmh_notable_persons/1007/thumbnail.jp
Philippine Sea plate magmatism and its implications for regional tectonics and geochemical mantle domains
No full text<p>This file includes Supplementary Tables S1-S5 and the movie 1 for: Shengping Qian, Jeremy Tsung-Jui Wu, Jonny Wu. Philippine Sea plate magmatism and its implications for regional tectonics and geochemical mantle domains. submitted in 2023</p>
Selective Encryption and Watermarking of MPEG Video (Extended Abstract)
No full text) Tsung-Li Wu E.C.E Department North Carolina State University Raleigh, NC 27695 [email protected] S. Felix Wu y Computer Science Department North Carolina State University Raleigh, NC 27695 [email protected] Feb 17, 1997 c fl1997, Wu and Wu All Rights Reserved Abstract MPEG (ISO Moving Picture Expert Group) is a compression standard for video processing and is widely used in multimedia application, e.g. VOD (video on demand), HDTV (High Definition Television), and DVD (Digital Video Disk). Confidentiality [MS95, AG96] and Copyright protection [HG96] are two security-related issues that have recently brought many attentions, especially when the MPEG streams are transmitted over the public Internet. In this paper, we present a research prototype which integrates selective encryption schemes with watermarking techniques in one system. In particular, we propose a simple and efficient scheme to securely distribute watermarked MPEG video streams over multicast/broadcast channels. We hav..
High efficiency synthesis of ultralong multi-walled carbon nanotubes forest and its electro-mechanical behavior under torsion
No full text本論文主要在探討多壁奈米碳管叢合成過程中,可能影響成長效率之因素,之後利用新發展的合成方法作大長寬比之奈米碳管叢成長後,對其扭轉時的機械性質與機電反應作相關的研究與討論。本研究首先自行組裝可個別控制溫度之三段溫度式化學氣相沉積系統,以蒸鍍薄膜之方式備製合成奈米碳管叢時所需的催化劑,並固定三段溫度式化學氣相沉積系統之高溫爐內的溫度梯度,藉由控制催化劑膜厚、碳源氣體(C2H4)流率與合成時間,最終可獲得超長多壁奈米碳管叢。其結果顯示三段溫度式化學氣相沉積系統內的溫度變化,確實可維持催化劑之使用壽命並且增加成長效率。取得成長時變化參數之最佳化數值後,三段溫度式化學氣相沉積法可在60分鐘內成長高達4.27釐米之多壁奈米碳管叢,利用無因次參數「奈米碳管叢合成率」客觀地與其他文獻作比較後可發現,三段溫度式化學氣相沉積法之「奈米碳管叢合成率」為單段溫度式化學氣相沉積法的712倍,且碳源氣體之使用流率僅為單段溫度式化學氣相沉積法之4 %。 利用黃光微影製程在二氧化矽基材上定義成長奈米碳管之位置與形狀,配合三段溫度式化學氣相沉積系統,可成功合成大長寬比之奈米碳管叢,接著使用自行設計之扭轉量測機構,可對圓柱狀之奈米碳管叢施予扭矩,並同時可量測其機電反應與扭轉角度。施加扭矩後可在奈米碳管叢表面產生皺折,過程中奈米碳管叢整體的電阻值會隨剪應變增加而微幅上升,當扭轉角度超過80°後之電阻值則會快速地增加,經由實驗結果可推測奈米碳管叢可承受較大的剪應變量,且扭轉過程中,奈米碳管叢內部結構會歷經剪應變、微幅斷裂與大量的破壞。臨界彎曲扭轉角度總是在電阻改變量超過5 %之角度後才發生,因此可由電阻改變量來預測奈米碳管叢之挫曲時間、臨界挫曲扭矩與臨界挫曲角度。與單根奈米碳管作比較時,奈米碳管叢擁有相當低的臨界剪力強度,其值僅有數個MPa左右。This dissertation reports on the effect factors during synthesis of multi-walled carbon nanotubes (MW-CNTs) forest. Utilizing this novel method to synthesize high aspect ratio carbon nanotubes forest, electro-mechanical behaviors when a torque is applied were reported and discussed. A self-assembled apparatus with three individually controlled heating zones constitute a three-zone temperature chemical vapor deposition (TZT-CVD) system. Catalyst film was deposited by electron beam evaporator and temperature difference was fixed in the TZT-CVD furnace. By controlling the catalyst film thickness, carbon source (ethylene) flow rate and synthesis time, ultralong MW-CNTs forest can be obtained. The results reveal that the effect of temperature difference in the TZT-CVD is to sustain the lifetime of the catalyst and hence increase the growth efficiency. By optimizing the growth variables, TZT-CVD produced MW-CNTs forest with a height up to 4.27 mm in 60 min. Compare with other references objectively, the CNT synthesis ratio, an ultimate figure of merit, is 712 times and the carbon source consumption is 4 % compared to that of single-zone temperature CVD. The position and shape was first defined by photolithography on silicon oxide substrate. High aspect ratio CNT turfs can be successfully obtained by a TZT-CVD. A special apparatus was designed to apply a torque to the cylindrical CNT turfs. The apparatus allows simultaneously measuring the electrical resistance and the corresponding torsional angle of the turf. Applied torque will lead to wrinkles on the exterior of CNT turfs. The electrical resistance will rise with the increasing shear strain and will rise suddenly at torsion angle of 80?. It indicates that the structure of CNT turf can sustain large shear strain and go through shear strain, slightly rupture and large break during the torsional process. The critical buckling angle always occurred after the angle at the resistance change rate is over 5 %. From the resistance change rate, the buckling time, critical buckling torque, and critical buckling angle can be forecast. Compared with individual carbon nanotube, the CNT turf possesses relatively low critical shear strength of several MPa only.口試委員會審定書謝文摘要................................................i文摘要....................................................iii錄....................................................v目錄...............................................viii目錄................................................xii1章 緒論..............................................1.1 研究背景介紹........................................1.2 奈米碳管之組成結構與物理特性........................6.3 研究動機與目的......................................9.4 本論文架構.........................................102章 文獻回顧.........................................13.1 奈米碳管與奈米碳管叢合成方法與發展簡介.............13.1.1 奈米碳管與奈米碳管叢之合成方法...................13.1.2 奈米碳管叢成長之發展簡介.........................19.2 奈米碳管叢機械性質量測介紹.........................223章 奈米碳管叢合成原理與扭轉量測理論.................29.1 化學氣相沉積法合成奈米碳管叢之成長型態與基本原理...29.1.1 化學氣相沉積法合成奈米碳管之成長型態.............29.1.2 化學氣相沉積法合成奈米碳管叢原理.................33.2 奈米碳管叢扭轉量測理論.............................37.2.1 彈性應變範圍內扭轉時之剪應力.....................37.2.2 大塑性應變扭轉時之剪應力.........................404章 實驗設計及流程...................................43.1 合成超長奈米碳管叢.................................43.1.1 實驗設備.........................................43.1.2 實驗流程.........................................45.2 超長奈米碳管叢之扭轉機電性質量測...................56.2.1 實驗設備.........................................56.2.2 實驗流程.........................................585章 實驗結果與討論...................................63.1 超長奈米碳管叢合成方法.............................63.1.1 碳源氣體乙烯流量對成長之影響.....................64.1.2 鐵薄膜厚度對成長之影響...........................71.1.3 成長時間與奈米碳管叢合成高度之關係...............73.1.4 基板效應對奈米碳管叢合成的影響...................79.1.5 拉曼光譜(Raman spectra)分析......................79.2 超長奈米碳管叢扭轉機電特性.........................81.2.1 奈米碳管叢扭轉之電性量測.........................81.2.2 奈米碳管叢扭轉之機械性質討論.....................83.2.3 奈米碳管叢機電特性之比較.........................886章 結論與建議.......................................89.1 研究成果總結.......................................91.2 未來展望...........................................93考文獻...............................................95者簡介與著作........................................10
A study of Liu Tsung-yuan's poetry
Full text linkAmong the three T'ang poets Wang Wei 王維 (699-759), Wei Ying-wu 韋應物 (737-?) and Liu Tsung-yüan 柳宗元 (773-819) who have been said to have lived in solitude and rage, one ditects certain differences. In Liu Tsung-yüan's writings his convictions and bitter experiences are often reflected. The nature that he communed with was the naked, inartificial one, in which he discovered much beauty. This beauty, however, was not able to dispel his deeply felt grief. Because of a political change of the Yung-chen 永貞 year, Liu Tsung-yüan was removed from his post in the central government and transferred to a barbaric place, Yung-chou 永州. Hence his nature poems contain descriptions of profound suffering. Liu Tsungyüan's style was influenced by that of Hsieh Ling-yün 謝靈運 (385-433), the famous nature poet of the Six Dynasties. Unlike his contemporary Han Yü 韓愈 (768-824), Liu Tsung-yüan did neither admire Li Po 李白 nor Tu Fu 杜甫. This fact might help to explain the differences between Liu and Han
Jin shi shuo: [8 juan]. v.80
No full text王[Cho]撰 ; [伍崇曜輯]Date from preface.框13.1 x 9.1 cm., 9行21字, 黑口, 左右雙邊, 無魚尾, 版心中鐫分冊書名, 下鐫叢書名.Wang Zhuo zhuan ; [Wu Chongyao ji]Kuang 13.1 x 9.1 cm., 9 xing 21 zi, hei kou, zuo you shuang bian, wu yu wei, ban xin zhong juan fen ce shu ming, xia juan cong shu ming
Analysis of the frequency response of a dispersive IDT/ZnO/sapphire SAW filter using effective permittivity and the coupling of modes model
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