由超导课题组尤立星研究员邀请，美国工程院院士、IEEE life fellow、美国加州大学伯克利分校教授 Prof. Theodore Van Duzer将于2010年9月20-21日访问我所。届时将会安排两个学术报告，信息如下：

1. A survey of superconductor electronics applications （9月20日）

2. Superconductor digital circuits （9月21日）

时间：上午9点半

地点：5号楼3楼多功能厅

欢迎感兴趣的研究人员和学生参加。

附该教授简历：

Highlights: （1）1997年美国工程院院士；（2）1993年美国IEEE终身会员；（3）1991年创建了IEEE杂志：IEEE Trans. On Appl. Supercond.，并担任首任主编；（4）2001年

IEEE Technical Council on Superconductivity 建立了以他命名的奖： Van Duzer Prize，用来表彰杂志上的优秀文章。

Education:

1960 Ph.D. Electrical Engineering, Univ. Calif., Berkeley

1957 M.S. Engineering, Univ. Calif., Los Angeles

1954 B.S. Electrical Engineering, Rutgers University

Professional Experience:

2007-Present, Professor Emeritus

1992-2007, Professor in the Graduate School

1961-1991, Prof. ranks through Professor, Univ. Calif., Berkeley

1970, Visiting Member of the Tech. Staff, Bell Telephone Lab.

1965-1966, Ford Foundation Visiting Prof., Catholic Univ., Santiago, Chile

1960-1961 NSF Postdoctoral Scholar, Technische Hochschule,

Vienna,Austria

1960 Acting Assistant Professor, Univ.of Calif., Berkeley

1957-1960 Assistant Engineer, Univ. of Calif., Berkeley

1954-1957　　　　 Member of the Technical Staff, Hughes Aircraft Co.

Honors:

2006 Best paper award, IEEE Council on Superconductivity

2001-2002 Distinguished Lecturer for IEEE/CSC

2001 Van Duzer Prize Paper established by IEEE/CSC

2000 IEEE/CSC Award for Significant and Continuing Contributions

to Applied Superconductivity

1997 NationalAcademy of Engineering

1993 IEEE Life Fellow

1992 Berkeley Citation

1990 Miller Research Professor fellowship

1977 IEEE Fellow

1977 Japan Society for Promotion of Science fellowship

1975 Outstanding Engineering Alumnus, Rutgers University

1960-1961 National Science Foundation Post-Doctoral Fellow

Sigma Xi, Tau Beta Pi, Eta Kappa Nu

Professional Activities:

Professor Van Duzer has led a research group in superconductive electronics since 1968, including both devices and circuits. He and members of his group invented a Josephson junction with electron-pair coupling through a 500-angstrom-thick degenerately doped silicon barrier and a planar equivalent, demonstrated both voltage-state and single-flux-quantum digital circuits operating in the high multi-gigahertz range (10 Gb/s and 20 Gb/s, respectively). The group has been active in A/D converters and in forming hybrids of 4 K CMOS and Josephson circuits, including a project to provide memory for Josephson logic. In the 1990s, his group developed the nation’s most versatile niobium integrated circuit process line. Present research is focused on hybrid superconductor/semiconductor systems for memory, as well as innovations in superconductor IC processing.

In 1988 he helped form the company Conductus, Inc. to exploit the high-temperature superconductors. His university group was selected for the University Research Initiative on digital superconductive electronics in 1992. He also served as Technical Coordinator of a joint venture under the DoC Advanced Technology Program which, in 1997, demonstrated a multi-technology, fiber-in, fiber-out, superconducting communication switch designed for 10 Gb/s per channel.

He has served on the boards of several continuing international and domestic conferences and workshops on superconductive electronics, having founded some of them. He initiated and served as the founding Editor-in-Chief for the IEEE Trans. on Superconductivity as well as Guest Editor for several IEEE journal special issues.

He is co-author (with S. Ramo and J. R. Whinnery) of the premier text, Fields and Waves in Communication Electronics, now in its 3rd edition (50th anniversary edition), and co-author (with C. W. Turner) of Introduction to Superconductive Devices and Circuits which appeared in English, Russian, Japanese, and Chinese and is now in its 2nd edition (1999). He has published over 245 technical papers in the field, mostly focused on superconductor device and circuit technology.