Boulder School 2009: Lecture Notes

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Lecture 1
Zia
Driven diffusive systems 1
Lecture 2RednerClassical Models in Nonequilibrium Statistical Physics 1
Lecture 3MarchettiActive and driven soft matter 1
Lecture 4TeitelDriven granular systems and jamming 1 | Slides 
Lecture 5RednerClassical Models in Nonequilibrium Statistical Physics 2
Lecture 6ZiaDriven diffusive systems 2 | Supplemental
Lecture 7TeitelDriven granular systems and jamming 2 | Slides 
Lecture 8MarchettiActive and driven soft matter 2
Lecture 9JarzynskiNonequilibrium work relations 1
Lecture 10TeitelDriven granular systems and jamming 3 | Slides 
Lecture 11ZiaDriven diffusive systems 3 | Supplemental
Public Lecture 1RednerThe Statistical Physics of Popularity
Lecture 12MarchettiActive and driven soft matter 3
Lecture 13JarzynskiNonequilibrium work relations 2
Lecture 14RednerClassical Models in Nonequilibrium Statistical Physics 3
Lecture 15ZiaDriven diffusive systems 4
Lecture 16JarzynskiNonequilibrium work relations 3
Lecture 17MarchettiActive and driven soft matter 4
Lecture 18RednerClassical Models in Nonequilibrium Statistical Physics 4
Lecture 19SeifertStochastic thermodynamics 1
Lecture 20ben-AvrahamReaction-diffusion models in one dimension 1
Lecture 21Vollmayr-LeeField theory approach to diffusion-limited reactions 1
Lecture 22ben-AvrahamReaction-diffusion models in one dimension 2
Lecture 23
Popovic
Nonequilibrium relaxation in Coulomb glasses and near the metal-insulator transition 1
Lecture 24SeifertStochastic thermodynamics 2
Lecture 25Vollmayr-LeeField theory approach to diffusion-limited reactions 2
Lecture 26
Popovic
Nonequilibrium relaxation in Coulomb glasses and near the metal-insulator transition 2
Lecture 27SeifertStochastic thermodynamics 3
Lecture 28ben-AvrahamReaction-diffusion models in one dimension 3
Lecture 29WscheborNonperturbative renormalization group approach to nonequilibrium systems 1 | Slides
Public Lecture 2ZiaWhat is Physics? a Personal Perspective
Lecture 30PleimlingAging phenomena in magnetic systems 1 | Slides
Lecture 31Vollmayr-LeeField theory approach to diffusion-limited reactions 3
Lecture 32
Popovic
Nonequilibrium relaxation in Coulomb glasses and near the metal-insulator transition 3
Lecture 33ben-AvrahamReaction-diffusion models in one dimension 4 (informal discussions no notes)
Lecture 34Vollmayr-LeeField theory approach to diffusion-limited reactions 4
Lecture 35WscheborNonperturbative renormalization group approach to nonequilibrium systems 2
Lecture 36PleimlingAging phenomena in magnetic systems 2 | Slides
Lecture 37WscheborNonperturbative renormalization group approach to nonequilibrium systems 3
Lecture 38PleimlingAging phenomena in magnetic systems 3 | Slides
Lecture 39RikvoldDynamical phenomena in nanoscale magnets 1
Lecture 40KentSpin dynamics in nanomagnets – single molecule magnets and metal ferromagnets 1
Lecture 41ReichhardtDriven colloids 1
Lecture 42RikvoldDynamical phenomena in nanoscale magnets 2
Lecture 43KentSpin dynamics in nanomagnets – single molecule magnets and metal ferromagnets 2
Lecture 44KiangSingle-molecule manipulation experiments of biological molecules 1
Lecture 45RikvoldDynamical phenomena in nanoscale magnets 3
Lecture 46FreySpatial models in evolutionary game theory 1
Lecture 47ReichhardtDriven colloids 2
Lecture 48KiangSingle-molecule manipulation experiments of biological molecules 2
Lecture 49KentSpin dynamics in nanomagnets – single molecule magnets and metal ferromagnets 3
Optional LectureRikvoldMacro-biophysics: Statistical physicists look at evolution and ecology
Lecture 50FreySpatial models in evolutionary game theory 2 | [Detailed notes]
Lecture 51ReichhardtDriven colloids 3
Lecture 52FreySpatial models in evolutionary game theory 3
Lecture 53KiangSingle-molecule manipulation experiments of biological molecules 3
Lecture 54WscheborNonperturbative renormalization group approach to nonequilibrium systems 4 (no notes)