Bulletin of the American Physical Society
APS April Meeting 2011
Volume 56, Number 4
Saturday–Tuesday, April 30–May 3 2011; Anaheim, California
Session J2: Centennial of Superconductivity |
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Sponsoring Units: FHP Chair: Martin Blume, Brookhaven National Laboratory and APS Room: Grand BCD |
Sunday, May 1, 2011 1:30PM - 2:06PM |
J2.00001: Superconductivity: Anatomy of a Discovery Invited Speaker: The discovery of superconductivity in 1911 by Heike Kamerlingh Onnes and his collaborators, though unexpected, rested on thirty years of prior work perfecting and applying the techniques of low temperature physics. His achievements reflected both his experimental skill and his close study of theory. The comparison with his competitors (especially James Dewar) reveals the effects of personal style, awareness of human nature, and organizational skill. That the actual first detection of superconductivity was made by a young assistant, Gilles Holst, raise deep questions of authorship, priority, and recognition. [Preview Abstract] |
Sunday, May 1, 2011 2:06PM - 2:42PM |
J2.00002: Superconductivity at 100 - what materials will serve us in the next century? Invited Speaker: Superconductivity continues to fascinate both at the fundamental mechanism level and for its potential for applications. In fact Onnes came to Chicago in 1913, just two years after discovering superconductivity, with a detailed plan to make a 10 T superconducting magnet! At the centenary it may be worth reflecting on what of Onnes' vision has worked and what, so far anyway, has not worked. In the achievement column we can put large numbers of superconducting magnets made of Nb-Ti and Nb$_3$Sn, cooled largely by liquid helium and generating fields above 23 T. Such magnets underpin the large MRI industry (1.5-3T), high field NMR (10-23T), and large accelerators like the LHC (up to 8.5T). Both Nb-Ti and Nb$_3$Sn are well developed conductor materials, now working close to their intrinsic limits and thus not normally discussed at the MRS, where much greater interest is shown in the cuprate high temperature superconductors. The basis of interest is for electric utility applications in temperature and field domains far from the liquid helium range accessible with Nb-base materials. Extraordinary efforts to master these complex materials have been made and great technical successes achieved. And yet, access to the expected markets has proven much harder than expected, to the point that new discoveries like MgB2, potentially much cheaper but with much less cryogenic advantage, and pnictides with higher Tc than MgB$_2$ but lesser $T_c$ than the cuprates, even though with much lower anisotropy, sometimes make their claims against cuprates like YBCO. And now too, new programs to discover much higher $T_c$, perhaps even at room temperature, are underway. Clearly many want new conductor materials with much higher $T_c$ and $H_{c2}$ than the isotropic Nb-base materials. Yet dealing with the anisotropy and the poor grain boundary transport of pnictides and cuprates poses tough manufacturing challenges, problems unlikely to be any less significant with new materials. How to develop appropriate strategies for dealing with these complexities will be a major them of my talk. [Preview Abstract] |
Sunday, May 1, 2011 2:42PM - 3:18PM |
J2.00003: Superconductivity beyond superconductors Invited Speaker: Theoretical implications of superconductivity theory extend far beyond superconductors. I will discuss the various ramifications in theoretical physics, particularly from the point of view of particle physics and quantum field theory. [Preview Abstract] |
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