Module NameDownloadDescriptionDownload Size
Module 1: IntroductionLecture 1Lecture 1140 kb
Module 2: Normal metalsLecture 1Lecture 186 kb
Module 2: Normal metalsLecture 2Lecture 252 kb
Module 3: Superconductivity phenomenonLecture 1Lecture 1174 kb
Module 3: Superconductivity phenomenonLecture 2Lecture 2128 kb
Module 4: Thermodynamics of the superconducting transitionLecture 1Lecture 185 kb
Module 4: Thermodynamics of the superconducting transitionLecture 2Lecture 229 kb
Module 5: Ginzburg-Landau phenomenological theoryLecture 1Lecture 178 kb
Module 5: Ginzburg-Landau phenomenological theoryLecture 2Lecture 255 kb
Module 5: Ginzburg-Landau phenomenological theoryLecture 3Lecture 395 kb
Module 5: Ginzburg-Landau phenomenological theoryLecture 4Lecture 4110 kb
Module 5: Ginzburg-Landau phenomenological theoryLecture 5Lecture 5176 kb
Module 5: Ginzburg-Landau phenomenological theoryLecture 6Lecture 685 kb
Module 5: Ginzburg-Landau phenomenological theoryLecture 7Lecture 778 kb
Module 6: Microscopic theory of superconductivityLecture 1Lecture 199 kb
Module 6: Microscopic theory of superconductivityLecture 2Lecture 277 kb
Module 6: Microscopic theory of superconductivityLecture 3Lecture 371 kb
Module 6: Microscopic theory of superconductivityLecture 4Lecture 451 kb
Module 6: Microscopic theory of superconductivityLecture 5Lecture 576 kb
Module 6: Microscopic theory of superconductivityLecture 6Lecture 6104 kb
Module 6: Microscopic theory of superconductivityLecture 7Lecture 7125 kb
Module 6: Microscopic theory of superconductivityLecture 8Lecture 886 kb
Module 6: Microscopic theory of superconductivityLecture 9Lecture 961 kb
Module 6: Microscopic theory of superconductivityLecture 10Lecture 1046 kb
Module 6: Microscopic theory of superconductivityLecture 11Lecture 11105 kb
Module 6: Microscopic theory of superconductivityLecture 12Lecture 12125 kb
Module 6: Microscopic theory of superconductivityLecture 13Lecture 1398 kb
Module 6: Microscopic theory of superconductivityLecture 14Lecture 14101 kb
Module 6: Microscopic theory of superconductivityLecture 15Lecture 1597 kb
Module 6: Microscopic theory of superconductivityLecture 16Lecture 1691 kb
Module 6: Microscopic theory of superconductivityLecture 17Lecture 1779 kb
Module 7: Tunneling and the energy gapLecture 1Lecture 1377 kb
Module 7: Tunneling and the energy gapLecture 2Lecture 2113 kb
Module 7: Tunneling and the energy gapLecture 3Lecture 370 kb
Module 7: Tunneling and the energy gapLecture 4Lecture 455 kb
Module 8 : Application of SuperconductorsLecture 1Lecture 1106 kb
Module 8 : Application of SuperconductorsLecture 2Lecture 2216 kb
Module 9 : Experimental probes of SuperconductivityLecture 1Lecture 1324 kb
Module 9 : Experimental probes of SuperconductivityLecture 2Lecture 2241 kb
Module 10: Unconventional superconductorsLecture 1Lecture 1159 kb
Module NameDownloadDescriptionDownload Size
Module 2: Normal metalsProblemsProblems71 kb
Module 3: Superconductivity phenomenonProblemsProblems77 kb
Module 4: Thermodynamics of the superconducting transitionProblemsPorblems84 kb
Module 5: Ginzburg-Landau phenomenological theoryProblemsProblems112 kb
Module 6: Microscopic theory of superconductivityProblemsProblems131 kb
Module 7: Tunneling and the energy gapProblemsProblems90 kb
Module NameDownloadDescriptionDownload Size
Module 1: IntroductionSA 1Self Assessment4 kb
Module 2: Normal metalsSA 2 - 1Self Assessment4 kb
Module 2: Normal metalsSA 2 - 2Self Assessment2 kb
Module 3: Superconductivity phenomenonSA 3 - 1Self Assessment5 kb
Module 3: Superconductivity phenomenonSA 3 - 2Self Assessment4 kb
Module 4: Thermodynamics of the superconducting transitionSA 4 - 1Self Assessment2 kb
Module 4: Thermodynamics of the superconducting transitionSA 4 - 2Self Assessment2 kb
Module 5: Ginzburg-Landau phenomenological theorySA 5Self Assesment85 kb
Module 6: Microscopic theory of superconductivitySA 6SA22 kb
Module 7: Tunneling and the energy gapSA 7SA3 kb
Module 8 : Application of SuperconductorsSA 8Self Assessment7 kb
Module 9 : Experimental probes of SuperconductivitySA 9Self Assessment7 kb

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