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(Created page with "== Course description == This course deals with systems in which the presence of impurities or amorphous structures (in other words, of disorder) influences radically the physics, generating novel phenomena. These phenomena involve the properties of the system at equilibrium (freezing transitions, glassy phase and glassy system), as well as their dynamical evolution out-of-equilibrium (pinning, avalanches). * The simplest spin-glass: solution of the Random Energy Mode...") |
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* Depinning and avalanches. | * Depinning and avalanches. | ||
* Bienaymé-Galton-Watson processes. | * Bienaymé-Galton-Watson processes. | ||
=Lectures and tutorials= | |||
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* [[LBan-1| Disorder and Random Energy Model ]] | |||
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* [[TBan-I| Extreme value statistics ]] | |||
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* [[LBan-II| Directed Polymer ]] | |||
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* [[TBan-II| Thermal Interfaces (not done)]][[https://colab.research.google.com/drive/1uBYvHjLxzirtzEMVvsk5Ld97koxXXO-N?usp=sharing| notebook]] | |||
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* [[L-4|Glass transition]] | |||
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*[[TBan-III| Tagged monomer (not done)]] | |||
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* [[LBan-IV|Driven Disordered Systems]] | |||
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*[[TBan-IV| Epidemics]] | |||
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* [[LBan-V|Avalanches]] | |||
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Latest revision as of 13:38, 16 September 2025
Course description
This course deals with systems in which the presence of impurities or amorphous structures (in other words, of disorder) influences radically the physics, generating novel phenomena. These phenomena involve the properties of the system at equilibrium (freezing transitions, glassy phase and glassy system), as well as their dynamical evolution out-of-equilibrium (pinning, avalanches).
- The simplest spin-glass: solution of the Random Energy Model.
- Interface growth and Directed polymers in random media.
- Scenarios for the glass transition: the glass transition for directed polymers in d>2.
- Depinning and avalanches.
- Bienaymé-Galton-Watson processes.