The following IEEE Fellows have made contributions to the advancement of applied superconductivity. Additionally, these individuals are qualified to serve as references for persons seeking advancement of their status within IEEE.
The table below is sortable by last name and year of award.
First | Last | Year | Citation |
---|---|---|---|
Flix |
Miranda |
2014 | for contributions to high-temperature superconductors and ferroelectric tunable microwave components for satellite communications () |
William Robert |
McCown |
2013 | for leadership in the design, application, and manufacturing of superconducting generators and turbogenerators () |
Swarn |
Kalsi |
2013 | for development and application of high temperature superconductor electric power equipment () |
Richard Stacy |
Withers |
2009 | for development of superconductive and cryogenic radio frequency circuits for NMR () |
Ilan |
Ben-Zvi |
2009 | for contributions to superconducting rf accelerators () |
Alexis P. |
Malozemoff |
2008 | for leadership in the development of vortex dynamics of high temperature superconductors () |
John |
Wikswo |
2008 | for contributions to understanding electromagnetic effects on materials and biological tissues () |
Charles |
Wilker |
2008 | for contributions to microwave measurements of cryogenic and high power components () |
Robert |
Shull |
2007 | for contributions to nanocomposites, superconductors, and magnetocaloric materials () |
Charles |
Jackson |
2007 | for leadership in the development of high-temperature superconductor microwave devices, quasi-optical techniques, and millimeter-wave subsystems for space and imaging systems () |
Harold |
Weinstock |
2007 | for leadership in superconducting magnetometry () |
Masauori |
Hara |
2006 | for contributions to electrical insulation technology in superconducting power devices () |
Shuichi |
Tahara |
2006 | for contributions to superconducting digital integrated circuits and single-flux quantum electronics () |
Charles W. |
Turner |
2006 | for contributions to engineering education () |
Janina |
Mazierska |
2005 | for contributions to measurements of high temperature superconducting and dielectric materials () |
Shirabe |
Akita |
2004 | for contributions in applied superconductivity in support of electric power applications () |
Paulo |
Ribeiro |
2003 | for contributions to the understanding of harmonic penetration in transmission systems, and advancement of superconducting magnetic energy storage system applications () |
William |
Gallagher |
2003 | for contributions to the development of oxide-barrier tunnel junctions for super conducting and magnetic device applications () |
Wilhelm W. |
Jutzi |
2003 | for contributions to superconducting digital integrated circuits and microwave technologies () |
Martin |
Nisenoff |
2001 | for leadership in the application of high temperature superconductivity and cryogenics to microwave components and systems () |
Masamitsu |
Kosaki |
1998 | for contributions to the understanding of electrical insulation characteristics of polymers in the cryogenic temperature region and the development of extruded polymer insulated superconducting cable () |
S K |
Yngvesson |
1998 | for contributions to the development of millimeter wave devices and systems () |
Peter |
McLaren |
1998 | for contributions to the development of digital relays and real time simulators for testing relays () |
James |
Kirtley |
1997 | for contributions to the theoretical understanding, development, and implementation of superconducting turbogenerators () |
Naoki |
Maki |
1997 | for contributions to the development of superconducting generators and magnetically levitated systems () |
Gerhard |
Sollner |
1997 | for pioneering the development of resonant-tunneling structures and contributions to the understanding of high-speed semiconductor devices () |
Mark |
Ketchen |
1996 | for the development of superconducting devices and technology for scientific and practical applications () |
Makoto |
Ibuka |
1995 | for contributions to, and leadership in, the development of superconducting quantum devices and their application to precise measurement () |
Alan |
Clark |
1995 | for contributions to superconductivity research, development of accurate characterization methods for superconductors, and development of related industry standards () |
James |
Edmonds |
1992 | for contributions to the development of superconducting technology and its application to the design of larger alternating current motors and generators () |
John |
Adam |
1991 | for contributions to the development of microwave device applications of ferrite thin films () |
Steiner |
Dale |
1990 | for contributions to gaseous dielectrics and break-down phenomena, and testing techniques for gas insulated systems () |
Eric B. |
Forsyth |
1989 | for contributions to the development and operation of superconducting power transmission lines () |
Robert A. |
Kamper |
1989 | for leadership and technical contributions to the application of superconductivity in instrumentation, measurement, and standards () |
A |
Kerr |
1984 | for contributions to millimeter-wave receivers () |
L G |
Rubin |
1982 | for contributions to cryogenic temperature and high-strength magnetic field measurement technology () |
Reece |
Roth |
1981 | for development in superconducting magnet technology and discoveries in plasma instabilities and turbulence () |
Paul |
Carr |
1979 | for contributions to microwave acoustics and their use as signal-processing components () |
Barry |
Taylor |
1977 | for contributions to the understanding of electron tunneling in superconductors and for leadership in the development of Josephson junction voltage standards () |