你所在的系或者大學的世界頂級教授的簡歷是什麼樣？

02-22

能否貼一份方便手機黨的CV.
最好加一些個人聽聞和個人感受.

我老闆的精簡版CV有27頁，你可以去感受一下：

http://stoddart.northwestern.edu/Fraser_Stoddart/Stoddart%20CV%20short.pdf

完整版66頁：

http://stoddart.northwestern.edu/Fraser_Stoddart/Stoddart%20CV%20full.pdf

剛看了下完整版也沒包括publication list...因為有&>1000篇paper _(:зゝ∠)_

最近正好在看老頭的自傳，雖然很早就退了系主任，現在也快退休了。

這是自傳Anthony J. Leggett

這是簡歷

安東尼·萊格特教授（Anthony J. Leggett
）於1938年生於英國倫敦，相繼於英國牛津百里奧(Balliol)學院和牛津默頓(Merton)學院獲得文學和物理學學士學位，然後在D. ter Haar 指導下獲得理論物理博士學位。繼在美國Urbana，日本京都等地從事博士後研究之後，於1967年加入英國蘇賽克斯(Sussex）大學教授行列，並先後於1971年和1978年晉身副教授(Reader)和正教授。自1983年至現在，他成為美國伊利諾伊大學香檳分校的 John D. and
Catherine T. Macarthur Professor。

安東尼·萊格特教授是國際學術界公認的量子物理學領域的領袖，由於他在超流體理論研究中做出的開創性工作被授予2003年諾貝爾物理學獎。

其主要貢獻在兩大研究領域：超導體、超流體，量子計算及量子力學中的基礎問題。近年他活躍於高溫超導體、量子液體、宏觀量子效應等研究領域，致力於研究在極端條件下的奇異量子相變與新型材料。他為液體氦和其他強耦合超流體建立了理論體系，使我們能深入理解處在最低能量和最有序狀態的物質的本質。他特別關注於遠離平衡態氦3超流體，高溫超導體及冷原子氣體的波色-愛因斯坦凝聚等理論。超流體在量子計算中的良好應用前景已經為銣原子氣體的超流態與絕緣態的可逆轉換所展示。萊格特教授領導了宏觀耗散系統的量子物理的研究方向，倡導使用凝聚態系統來驗證量子力學的基石，也關注於使用約瑟夫森器件等特殊的凝聚態物質系統來研究量子理論體系外推到宏觀層次的可行性。他對這一領域的巨大貢獻可能贏得另外一次諾貝爾獎。

萊格特教授是美國科學院院士，美國知識學會院士，美國藝術與科學學院院士，俄羅斯科學院外籍院士，英國皇家學會成員（成員數限制不超過25人），美國物理學會成員，美國物理聯合會成員。他還是英國物理學會榮譽院士。他因在物理學上的貢獻被英國女王伊麗莎白二世授予爵士稱號。

萊格特教授所獲的主要學術榮譽：

2003 超導及超流理論上的開創性工作獲諾貝爾物理學獎（與維塔利·金茨堡及阿列克謝·阿布里科索夫分享）。

2003因凝聚態物理領域的關鍵性貢獻獲沃爾夫獎（與B. I. Halperin共享）。沃爾夫獎主要是獎勵對推動人類科學與藝術文明做出傑出貢獻的人士，具有終身成就性質，是世界最高成就獎之一。

1999俄羅斯科學院外籍院士。

1999 Eugene Feenberg紀念獎。Eugene Feenberg紀念獎是為紀念著名美國物理學家Eugene Feenberg所設立的，頒發給在量子多體理論做出傑出貢獻的科學家。

1998 英國物理學會（British Institute of Physics）榮譽院士。

1997 美國科學院外籍院士（2001年獲得美國籍）。

1996 美國藝術及科學院院士

1994 約翰°巴丁獎（與G. M. Eliashberg分享）。約翰°巴丁獎是1956年及1972年兩屆諾貝爾物理學獎獲得者巴丁所創立的，頒發給在超導研究中做出傑出貢獻的科學家。

1991年美國哲學學會會士

1991英國物理學會狄拉克勳章

1985美國物理學會會士

1981 英國物理學會第九屆西蒙紀念獎。西蒙紀念獎是國際頂級學術成就獎，其獲得者都是諾貝爾獎的有力候選人。

1981第11屆弗里茨°倫敦紀念獎。弗里茨°倫敦紀念獎是為了紀念著名美國物理學家弗里茨°倫敦所設立的，頒發給在低溫物理研究中做出傑出貢獻的科學家。

1980英國皇家學會成員（成員數限制不超過25人）

1975 英國物理學會麥克斯韋獎章。麥克斯韋獎是英國物理學會頒發給理論物理領域做出傑出貢獻的年輕科學家。

英文版

Professor

Sir Anthony J. Leggett, the John D. and Catherine T. MacArthur Professor and Center for Advanced Study Professor of Physics, has been a faculty member at Illinois since 1983. He is widely recognized as a world leader in the theory of low-temperature physics, and his pioneering work on superfluidity was recognized by the 2003 Nobel Prize in Physics. He is a member of the National Academy of Sciences, the American Philosophical Society, the American Academy of Arts and Sciences, the Russian Academy of Sciences (foreign member), and is a Fellow of the Royal Society (U.K.), the American Physical Society, and the American Institute of Physics. He is an Honorary Fellow of the Institute of Physics (U.K.). He was knighted (KBE) by Queen Elizabeth II in 2004 "for services to physics."

Professor Leggett has shaped the theoretical understanding of normal and superfluid helium liquids and other strongly coupled superfluids. He set directions for research in the quantum physics of macroscopic dissipative systems and use of condensed systems to test the foundations of quantum mechanics. His research interests lie mainly within the fields of theoretical condensed matter physics and the foundations of quantum mechanics. He has been particularly interested in the possibility of using special condensed-matter systems, such as Josephson devices, to test the validity of the extrapolation of the quantum formalism to the macroscopic level; this interest has led to a considerable amount of technical work on the application of quantum mechanics to collective variables and in particular on ways of incorporating dissipation into the calculations. He is also interested in the theory of superfluid liquid 3He, especially under extreme nonequilibrium conditions, in high-temperature superconductivity,in the low-temperature properties of glasses and in topological quantum computing,particularly in so-called "p+ip" Fermi superfluids.

DESCRIPTION OF CURRENT RESEARCH

Aspects of Cuprate Superconductivity

We are exploring a scenario for cuprate superconductivity in which a major factor is the reduction, due to increased screening by the Cooper pairs, of the long-wavelength, mid-infrared-frequency part of the Coulomb interaction. In addition, independently of this scenario, we are attempting to explain the c-axis transport properties of the cuprates and are looking at some problems associated with the "pseudogap" regime and with the peculiar features resulting from the existence of gap nodes.

Experimentally Oriented Studies of Basic Conceptual Issues in the Foundations of Quantum Mechanics

We are studying the application of the quantum-mechanical formalism to the description of various experiments that severely test one』s understanding of its meaning. In addition, we study possible alternative explanations of ostensibly relevant experiments in the literature.

Superfluidity and Phase Coherence in Very Degenerate Atomic Gases

Studies are being made of the superfluid density of an arbitrary many-body system, possible phase-coherence and interference experiments in Bose-condensed atomic gases, superfluidity in very degenerate dilute Fermi gases, and thermal transport in the ultralow-temperature regime of superfluid 3He.

HONORS AND AWARDS

Knighted, Order of the British Empire (KBE) "for services to physics" by Queen Elizabeth II, 2005
2003 Nobel Prize in Physics (with V. L. Ginzburg and A. A. Abrikosov)
2002/2003 Wolf Foundation Prize for research on condensed forms of matter (with B. I. Halperin)
1999-Foreign Member, Russian Academy of Sciences
1999-Eugene Feenberg Memorial Medal
1998-Honorary Fellow, Institute of Physics, UK
1997-Elected Foreign Associate, National Academy of Sciences
1991-Paul Dirac Medal and Prize (British Institute of Physics) (The Eighth Simon Prize was awarded in 1976, the Tenth London Award in 1978, while the Maxwell Prize and Dirac prizes are annual).
1985-Fellow of the American Physical Society (November 1985)
1981-Ninth Simon Memorial Prize of the British Institute of Physics
1981-Eleventh Fritz London Memorial Award
1980-Fellow of the Royal Society
1975-Maxwell Medal and Prize of the British Institute of Physics

SEMESTERS RANKED EXCELLENT TEACHER BY STUDENTS

Fall 2008: PHYS 598
Fall 2003: PHYS 498

SELECTED PUBLICATIONS

A.J.Leggett,Quantum Liquids:Bose condensation and Cooper pairing in condensed matter systems (Oxford University Press, 2006).
A. J. Leggett. The Problems of Physics. (Oxford University Press: Oxford N.Y.). (1987). [German translation: Physik: Probleme, Themen, Fragen, (Birkhaüser Verlag, Basel, 1989); Japanese translation: Butsurigaku no Susume, Kinokuniya, Tokyo, 1990) Italian translation: I Problemi Della Fisica (Einaudi, Rome, 1991)].
A.J. Leggett, D.C. Vural. Tunneling two-level systems" model of the low-temperature properties of glasses: are "smoking-gun" tests possible?, J. Phys. Chem. B 117, 12966 (2013)
G. Zhu, A. Leggett. BEC-BCS crossover with Feshbach resonance for a three-hyperfine-species model. Phys. Rev. A 87, 023627 (2013).
A.J. Leggett. Reflections and reminiscences on a (half-)century of superconductivity (The Physical Society of Japan) CiNii, Butsuri 66 (10), p 743-746 (2011).
A. J. Leggett. The superfluid phases of liquid 3He: BCS theory. BCS: 50 Years, 473-90 (2011).
D. Loss, F. L. Pedrocchi, and A. J. Leggett. Absence of spontaneous magnetic order of lattice spins coupled to itinerant interacting electrons in one and two dimensions. Phys. Rev. Lett. Editors Choice: 107, 107201 (2011).
D. C. Vural and A. J. Leggett. Universal sound absorption in amorphous solids: A theory of elastically coupled generic blocks. J. Non-Crystalline Sol. 357:19-20, 3528-3537 (2011).
D. M. Lee and A. J. Leggett. Superfluid (3)He-the Early Days. J. Low Temp. Physics 164:3-4, 140-172 (2011).
A. J. Leggett. A theoretical description of the new phases of liquid 3He. Rev. Mod. Phys. 47, 331-414 (1975).
A. Aspect., A. Leggett, J. Preskill, T. Durt, S. Pironio. Foundations of Quantum Mechanics and Quantum Computation. Proceedings of the 25th Conference on Physics (19-22 Oct. 2011), World Scientific Publishing Co, Singapore. The Theory of the Quantum World, p 21-90, 2013.

Philip Anderson - Physics Department, Princeton University

順便，so far我還不是prin的人

Lisa McCormick。不敢說她是世界頂級，但是在sociology of music的小圈子裡也還是挺厲害的。其實我有點私心，因為我一直是她的小迷妹，最迷茫的那段時候她大概是我的one and only inspiration。

她的背景（正著寫，因為這樣比較好看出她的發展路線XD）

BMus in Cello Performance, summa cum laude, Rice University

BA in Sociology, summa cum laude, Rice University

MPhil in Music: Performance and Interpretation, University of Oxford (Rhodes Scholar, Prairies Corpus Christi)

MA in Sociology, Yale University

MPhil in Sociology, Yale University

PhD in Sociology, Yale University

她的BMus和BA是在同一時期讀出來的，joint跨度這麼大兩個都是summa cum laude我已經跪了。

然後Rhodes Scholar，這是個每年全球選95個人的全獎，分量極大。然而他們是很看重leadership commitment to service的，出於這個原因一般也Public Policy之類的專業更吃香，她學music能拿到這個獎，挺神的。

然後後來的Yale就不用說了。在這之後她去了Haverford College當了Assistant Professor，拿了tenure。

她還做過專業大提琴家，還拿過幾個performance相關的fellowship。

我第一次見到她的時候完全沒看出來她這麼神。她也是新來到我們系，年輕，加上人又特別好，我以為她就是一個average PhD。然後發現她居然是course convenor。後來發現她做過professional cellist，然後翻出她的背景，就徹底跪了。

她現在主要在研究classical music competition，被肖邦賽邀請去研究他們，出了一本書，可惜我至今沒啃完。

完整CV：https://www.haverford.edu/file/72086/download?token=nJPJYjL

（突然意識到她也教social theory，我最喜歡的lecturer和我最不喜歡的area突然結合起來我有點不知所措）

窊大 jize Zhao

王滬寧，復旦大學政治系教授

先匿了，

我老闆去開會的時候管中村修二叫中村君。

比如一個40歲的教授，他的學術成就在28歲博士畢業的時候達到了最高峰。