| Nano-Pinning of Magnetic Flux Last
updated:
May 29, 2003
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IDEA Use of high temperature superconductor magnetic flux pinning sites as a platform for celt-assembly at nano structures. In addition, without pinning the equilibrium configurations of magnetic vortex offers opportunities for fast self assembly and manufacture of nanoscale electronic structures. |
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| PINNING SITE TOPOGRAPHY | Dr. M. Andrews: Simulation and theory of magnetic fields and pinning site topography. http://www.mengr.tamu.edu/GeneralScripts/facultyinfo.asp?LastName=Andrews |
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| PHYSICAL-VAPOR-DEPOSITION | Dr. A. Beskok: Refinement of thin-film superconductor manufacture. http://www.mengr.tamu.edu/GeneralScripts/facultyinfo.asp?LastName=Beskok |
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HTSC |
Dr. Chia-Ren Hu: Theory of space and time dependent magnetic vortex trapping and motion in HTSC's. http://www.physics.tamu.edu/people/person.html/Hu,Chia-Ren |
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| NANO-POSITIONING | Dr. W.J. Kim: High precision nano-positioning using Planar Magnetic Levitation. http://www.mengr.tamu.edu/GeneralScripts/facultyinfo.asp?LastName=Kim |
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| MAGNETIC FLUX | Dr. J. Ross: Modification of AFM to have a ferromagnetic tip and operate at cryogenic temperatures. http://faculty.physics.tamu.edu/ross/ |
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| PHASE-FORMATION | Dr. J. Slattery: Formation of single phase and effects of magnetic fields. http://aeromaster.tamu.edu/Faculty/slattery.html |
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| MATERIALS | Dr. M. Yavuz: BSCCO based thin-film superconductor. http://www.mengr.tamu.edu:70/thermal-fluidsciences/myavuz/ |
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Copyright
© 2001 - 2002 Texas A&M University Department of Mechanical Engineering
College Station, TX 77843-3123 To view pdf files click here to download the Adobe Acrobat Reader |
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