New Advances in Maxwell's Equations and Applications
暫譯: 麥克斯韋方程的新進展與應用
Li, Er-Ping, Wang, Zhong Lin
- 出版商: Springer
- 出版日期: 2026-02-02
- 售價: $8,140
- 貴賓價: 9.5 折 $7,733
- 語言: 英文
- 頁數: 303
- 裝訂: Quality Paper - also called trade paper
- ISBN: 3031757882
- ISBN-13: 9783031757884
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相關分類:
電磁學 Electromagnetics
海外代購書籍(需單獨結帳)
商品描述
This book offers a comprehensive examination of ongoing advancements in theoretical and experimental approaches to Maxwell's equations. It focuses on three key aspects: quantum effects, scale effects, and kinetic effects, which exert subtle influences at microscopic levels. Addressing pressing challenges for future progress, the text explores the interplay of these phenomena within classical electromagnetism.
The evolution of data communication and information technology has led to a demand for high-density, minimization, ultra-compact nano-photo-electronic integration. As electronic devices scale down to nanometer and sub-nanometer levels, classical Maxwell's equations reveal quantum effects. This book provides insights into these advancements, focusing on potential applications in nano-scale electronic and optic devices.
Tailored for physicists, engineering scientists, electronics engineers, and developers, this text serves as a valuable resource. It guides readers from classical Maxwell's equations to their quantum-affected counterparts, providing essential insights for electromagnetic simulation and the design of nano-scale electronic and optic systems. With its blend of theoretical foundations and practical applications, this book equips professionals with the knowledge needed to apply these advancements in real-world scenarios.
商品描述(中文翻譯)
這本書全面探討了在馬克士威方程式的理論和實驗方法上持續進展的情況。它專注於三個關鍵方面:量子效應、尺度效應和動力學效應,這些效應在微觀層面上產生微妙的影響。針對未來進展的迫切挑戰,文本探討了這些現象在經典電磁學中的相互作用。
數據通信和信息技術的演變導致對高密度、最小化、超緊湊的納米光電子集成的需求。隨著電子設備縮小到納米和亞納米級別,經典的馬克士威方程式顯示出量子效應。本書提供了對這些進展的見解,重點關注在納米級電子和光學設備中的潛在應用。
本書專為物理學家、工程科學家、電子工程師和開發人員量身定制,是一本寶貴的資源。它引導讀者從經典的馬克士威方程式到其受量子影響的對應方程式,提供電磁模擬和納米級電子及光學系統設計所需的基本見解。結合理論基礎和實際應用,本書使專業人士具備在現實場景中應用這些進展所需的知識。
作者簡介
Er-Ping Li presently, he holds the esteemed position of Qiushi Distinguished Chair Professor in electronic engineering at Zhejiang University, China, adjunct Professor with University of Illinois Urbana-Champaign, . His extensive career includes roles such as Principal Scientist and Professor at the Singapore National Research Institute and University from 1993 to 2012. Notably, Dr. Li served as the Founding Dean for the Zhejiang University-University of Illinois Urbana-Champaign Joint Institute (ZJU-UIUC Institute) from 2016 to 2022 .
Dr. Li pioneers in the realm of computational electromagnetics and electromagnetics for micro/nano-devices. Recognized for his outstanding contributions, he has been honored as a Fellow of IEEE (2007), a Fellow of the MIT Electromagnetics Academy in the USA, and a Fellow of the Academy of Engineering Singapore. Dr. Li's scholarly impact is reflected in the authorship and co-authorship of 400 papers published in reputable international journals.
Acknowledging his expertise, Dr. Li has received numerous international awards, including the prestigious IEEE EMC Technical Achievement Award, the IEEE EMC Richard Stoddard Award for outstanding performance, and the IEEE EMC Laurence Cumming Award - the highest international award in the field. Furthermore, he played a pivotal role as the Founding General Chair for APEMC (Asia-Pacific International Symposium on Electromagnetic Compatibility) and has served as the General Chair and Technical Program Chair for more than 20 prestigious international conferences. Dr. Li has shared his insights and expertise through over 100 invited talks and plenary speeches at various international conferences and forums. Presently, he serves as Executive Editor-in-Chief for Electromagnetics Science.
Dr. Zhong Lin Wang holds multiple prestigious positions in the fields of nanoenergy and nanosystems. Currently serving as the Director of the Beijing Institute of Nanoenergy and Nanosystems, he also holds the distinguished position of Regents' Professor and Hightower Chair at the Georgia Institute of Technology. Dr. Wang is a trailblazer in the nanogenerators field, contributing significantly to the areas of distributed energy, self-powered sensors, and large-scale blue energy.
His pioneering work includes the introduction of the fields of piezotronics and piezo-phototronics, particularly in the context of third-generation semiconductors. Dr. Wang's groundbreaking contributions have earned him several prestigious awards, including the Global Energy Prize in 2023, The Albert Einstein World Award of Science in 2019, the Diels-Planck lecture award in 2019, and the ENI Award in Energy Frontiers in 2018. Additionally, he received The James C. McGroddy Prize in New Materials from the American Physical Society in 2014 and the MRS Medal from the Materials Research Society in 2011.
Dr. Wang's academic achievements are reflected in his membership in various esteemed institutions, including being elected as a fellow of the US National Academy of Inventors, a foreign member of the Chinese Academy of Sciences, a member of the European Academy of Sciences, a member of the European Academy of Engineering, and a foreign member of the Korea Academy of Science and Technology. He is also an academician of Academia Sinica and an International fellow of the Canadian Academy of Engineering.
In addition to his significant roles, Dr. Wang is the founding editor and chief editor of the international journal Nano Energy.
作者簡介(中文翻譯)
李爾平目前擔任中國浙江大學電子工程的求是特聘教授,並兼任伊利諾伊大學香檳分校的教授。他的職業生涯非常豐富,曾於1993年至2012年擔任新加坡國家研究院及大學的首席科學家和教授。值得注意的是,李博士於2016年至2022年擔任浙江大學-伊利諾伊大學香檳分校聯合研究所(ZJU-UIUC Institute)的創始院長。
李博士在計算電磁學及微/納米設備的電磁學領域中開創了先河。因其卓越的貢獻,他被授予IEEE Fellow(2007年)、美國麻省理工學院電磁學學院的Fellow,以及新加坡工程學院的Fellow。李博士的學術影響力體現在他在國際知名期刊上發表的400篇論文的作者和合著者身份上。
鑑於他的專業知識,李博士獲得了多項國際獎項,包括享有盛譽的IEEE EMC技術成就獎、IEEE EMC理查德·斯多達德獎以表彰其卓越表現,以及IEEE EMC勞倫斯·卡明獎——該領域的最高國際獎項。此外,他在亞太電磁相容性國際研討會(APEMC)中擔任創始總主席,並在20多個著名國際會議中擔任總主席和技術程序主席。李博士通過在各種國際會議和論壇上發表的100多場受邀演講和主題演講分享了他的見解和專業知識。目前,他擔任《電磁科學》期刊的執行主編。
王忠麟博士在納米能源和納米系統領域擔任多個重要職位。目前,他是北京納米能源與納米系統研究所的所長,並在喬治亞理工學院擔任Regents' Professor和Hightower Chair。王博士是納米發電機領域的先驅,對分散式能源、自供電傳感器和大規模藍色能源等領域做出了重要貢獻。
他的開創性工作包括在第三代半導體的背景下引入壓電電子學和壓電光電子學的領域。王博士的突破性貢獻使他獲得了多項享有盛譽的獎項,包括2023年的全球能源獎、2019年的阿爾伯特·愛因斯坦世界科學獎、2019年的Diels-Planck講座獎,以及2018年的ENI能源前沿獎。此外,他於2014年獲得美國物理學會的詹姆斯·C·麥克格羅迪新材料獎,並於2011年獲得材料研究學會的MRS獎章。
王博士的學術成就體現在他成為多個著名機構的成員,包括被選為美國發明家國家學院的Fellow、中國科學院的外籍院士、歐洲科學院的成員、歐洲工程院的成員,以及韓國科學技術院的外籍院士。他還是中央研究院的院士和加拿大工程院的國際院士。
除了他的重要角色外,王博士還是國際期刊《Nano Energy》的創始編輯和主編。
