Supplemental material for the article "Variable Order Fractional Fokker-Planck Equations derived from Continuous Time Random Walks"
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Updated
Mar 25, 2018 - TeX
Supplemental material for the article "Variable Order Fractional Fokker-Planck Equations derived from Continuous Time Random Walks"
Numerical integration of mean-field equations for large-scale leaky integrate-and-fire neuronal network simulations incorporating synaptic plasticity via Graupner Brunel model. Includes support for a memory-induction stim-pop.
This project find simulate a ideal gas of N particles and get boltzman distribution to measure his temperature.
Wiki of a research project at the University of Cambridge, supervised by Robert Jack, and at the Université de Paris, supervised by Frédéric van Wijland.
Ising model with super long-range interactions. Includes code for Monte Carlo simulations and an analytical exploration of the model.
Code developed for a research project at Umeå universitet focusing on sheared packings of ellipsoids, supervised by Peter Olsson.
Forced ratched model of molecular motors.
Sandpiles simulation based on a cellular automaton
Calculate spectral dimensions of arbitrary fractal structures
Jupyter Notebook tab and raw Julia script to simulate the Phi-4 model in a square lattice (d=2) .
All my projects made during the Computational Physics course in Università degli Studi di Palermo (Physics M.Sc.)
In this repository all projects for the lecture Numerical Methods of Statistical Physics from the summer term 2021 are stored
Statistical analysis of the thermochemistry of polycyclic aromatic hydrocarbons (PAHs) with google AppsScript and Scikit-learn based on calculations by Blanquart and Pitsch.
Large W Limit of Knapsack Problem
Code for "Combinatorial model of ligand-receptor binding" paper
Continuous-time noisy voter model
Code for performing lattice-based Monte Carlo simulations of the Bragg-Williams model
Code for "Permutation Glass" paper
Notes of a research project at Umeå universitet focusing on sheared packings of ellipsoids, supervised by Peter Olsson.
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