來一趟說走就走的旅行論文書籍站
Symmetry journal的問題,透過圖書和論文來找解法和答案更準確安心。 我們找到下列地圖、推薦、景點和餐廳等資訊懶人包
Symmetry journal的問題,我們搜遍了碩博士論文和台灣出版的書籍,推薦Graham, Georgia寫的 The Day of the Tornado 和的 Symmetry: Culture and Science: Thirty Years of Transdisciplinary Research都 可以從中找到所需的評價。
另外網站symmetry magazine | dimensions of particle physics也說明:Symmetry is an online magazine about particle physics and its connections to other aspects of life and science, from interdisciplinary collaborations to ...
這兩本書分別來自 和所出版 。
國立陽明交通大學 光電工程研究所 盧廷昌所指導 陳立人的 高功率可變出光角光子晶體面射型雷射之特性研究 (2021),提出Symmetry journal關鍵因素是什麼,來自於光子晶體、面射型雷射、光束偏轉、表面超穎結構、光束掃瞄。
而第二篇論文國立陽明交通大學 電機工程學系 陳信宏、陳宏明所指導 姜承佑的 針對客製化 SAR ADC 之二進位電容陣列佈局自動化 (2021),提出因為有 寄生效應、電容匹配、佈局、繞線、中心對稱、類比數位轉換器、線性規劃的重點而找出了 Symmetry journal的解答。
最後網站Symmetry - DOAJ則補充:A peer-reviewed, open access journal in mathematics, computer science, symbiosis, symmetry & chemistry.
The Day of the Tornado
為了解決Symmetry journal 的問題,作者Graham, Georgia 這樣論述:
Striking illustrations... A warm reassuring story. --School Library Journal A very satisfying symmetry between strong, vivid paintings of the Alberta landscape... and the powerful, forthright story. --Globe and Mail As Matthew and his father repair a fence on their dairy farm, Matthew encounters
something stronger than his dad: a tornado sweeping a path of devastation across the prairie. The classic illustrated story about love, hope and renewal is now in paperback for the first time. Originally published in hardcover as The Strongest Man This Side of Cremona.
高功率可變出光角光子晶體面射型雷射之特性研究
為了解決Symmetry journal 的問題,作者陳立人 這樣論述:
本論文旨在研究高功率可變出光角之光子晶體面射型雷射的設計,製作及其光電特性。光子晶體面射型雷射因具備大功率操作及發散角小等特性,近年來頗受矚目,被視為是3D感測,光達,和雷射加工等應用領域的理想光源;研究首先藉由數值模擬計算來探討磊晶結構及光子晶體結構對於雷射閾值及出光效率的影響,進而得到較佳的磊晶結構同時配合不同的光子晶體結構來進行實驗驗證,實驗與模擬的結果均顯示雷射的斜率效率隨著光子晶體結構的對稱性下降而大幅上升,實驗並針對P面向上的結構進行優化,使得光輸出功率進一步提升,同時我們也針對大功率單模操作進行探討。另一方面我們也針對改變鐳射出光角度的機制進行研究以實現光束掃描的新奇雷射結構。
先後評估了主動式的光學相位陣列,主動式光柵結構,雙調變式光子晶體結構以及超穎結構等方式,考量結構整合的便利性及發光效率等因素,我們採用雷射整合表面超穎結構的方式進行設計,超穎結構的設計使用了奈米結構陣列及反向設計兩種方式,在砷化鎵基板上實驗的結果顯示此結構可將雷射光偏轉至設計的角度並且抑制原本垂直方向上的雷射光,此超穎結構結合光子晶體面射型雷射將得到高效率且緊湊的光束偏轉雷射,進一步製作成不同出光角度的陣列並單獨控制即可實現掃描功能,預期此雷射結構在上述的應用領域有著相當大的潛力。
Symmetry: Culture and Science: Thirty Years of Transdisciplinary Research
為了解決Symmetry journal 的問題,作者 這樣論述:
Vilmos Katona is an architect, architectural theorist and historian applying contemporary studies on symmetry and phenomenology to develop a better understanding of the built environment, in which symmetry and patterns play a key role.Born in Toronto, Canada, graduated in Hungary at the Faculty of A
rchitecture of Budapest University of Technology and Economics (BUTE), where he also received his Ph.D. in 2015. He wrote his dissertation about the contemporary architecture of European Catholic communities. From 2011 to 2018, he held lectures on architectural theory and history in various universi
ties (BUTE, University of West Hungary, Széchenyi University). Since 2018, he has worked as an associate professor at the Institute of Architecture, University of Pécs.He is also active in the fields of architectural and art exhibitions either as a curator or an exhibitor (SAM Basel, Abstract Projec
t Paris, FUGA Budapest, MODEM Debrecen). He is a member of the public body of the Hungarian Academy of Sciences and co-founder of Urbanism at Borders Global Research Group, established at Robert Gordon University, Aberdeen, 2017, which focuses on global urban issues regarding migration, post-traumat
ic architecture, resilient cities and urban regeneration. He is a member of the Executive Editors’ Board and, since 2021, elected editor-in-chief of Symmetry, the journal of the International Symmetry Association. In addition, he is a member of the Editorial Board of the open access Journal of Archi
tecture and Urbanis m a t VGTU and the Advisory Board of Metszet at Artifex Publishing Ltd. Most of his papers focus on the architecture of religious communities, community-based planning, and the phenomenology of place. His books have earned grants from the Prime Minister’s Office since 2019, and i
n 2020, he was awarded the Scholarship of the Hungarian Academy of Arts.
針對客製化 SAR ADC 之二進位電容陣列佈局自動化
為了解決Symmetry journal 的問題,作者姜承佑 這樣論述:
由於其出色的功率效率,逐次逼近寄存器 (SAR) 模數轉換器 (ADC) 是實現低功耗 ADC 設計的一個具吸引力的選擇。在類比佈局設計中,導線、元件間引起的寄生效 應會影響器件的準確度與性能。為了大幅減少電路中的寄生電容,一種一維陣列式橫 向金屬-金屬極小電容單元組成的電容陣列架構已經採用於一些低功耗或高速的 SAR ADC 中。雖然採用這種二進位電容陣列架構的 SAR ADC 可以大大降低功耗與面積, 但由於每個單元電容器的電容值非常小,電路中非預期的寄生電容會顯著影響電容器 的匹配特性和設置時間。本文提出了一個用於合成客製化 SAR ADC 之最佳化二進位 電容陣列的方法。實驗結果也表
明,我們的方法生成的佈局結果之 ENOB 與手動設計 和其他自動化研究相比優化不少。