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Timetable

11/7 12/7 13/7 14/7 15/7 16/7
Sunday Monday Tuesday Wednesday Thursday Friday
8:30 Registration
"Theory" Lectures 9:00 Cond.Mat. 101 J.L.Santos S. Hartnoll G.Sierra N. Peres M. Fogler N. Peres
Coffee 10:15 Registration
"Applied" Lectures 10:45 Cond.Mat 101 V.Pereira G. Sierra P.Vieira M. Fogler J.L.Santos J.L.Santos
"Applied" Lectures 11:45 Mathematica 101 J.Harris P.Vieira S. Hartnoll E. Castro (50min) E. Castro V. Pereira
Comments 12:45 J Harris N. Gromov J Harris N. Gromov (50min) J Harris J Harris
Lunch 13:00
Lecture/Problem solving 14:30 Mathematica 101 N.Gromov Exercises Exercises Exercises Exercises Exercises
Problem solving 15:30 Mathematica 101 Exercises Exercises Exercises Exercises Exercises Exercises
Coffee 16:30
Problem solving 17:00 Mathematica 101 Exercises Exercises Exercises Exercises Exercises
Dinner 18:30
Dinner

Michael Fogler Lecture 1 : Hopping transport in disordered nanowires
Michael Fogler Lecture 2 : Graphene nanoscrolls
Jason Harris: Mathematica
Sean Hartnoll Lecture 1: Introduction to holography for condensed matter theorists
Sean Hartnoll Lecture 2:Computing response functions with holography and mathematica
Nuno Peres Lecture 1: Transport problems in graphene using transfer matrices
Nuno Peres Lecture 2: The optical conductivity of graphene: variations on a theme
German Sierra Lecture 1: Entanglement entropy in spin chains
German Sierra Lecture 2: Density Matrix Renormalization Group Method
Lopes dos Santos Lecture 1: Condensed Matter 101
Lopes dos Santos Lectures 2 and 3: Graphene
Vitor Pereira, Eduardo Castro: Applied lectures on Graphene
Nikolay Gromov: Perturbation theory and Hubbard model
Pedro Vieira: Thermalization