Currently an undergraduate student of Computational Physics at IFSC/USP.
My research focuses on investigating work extraction and entanglement manipulation in the fermionic superfluid-insulator transition with finite-time dynamics.
- Programming Languages: Python, C/C++, Fortran, Julia
- Tools: Linux, LaTeX, Git, Vim, Emacs
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Intro to Computational Physics
- Fortran, Monte Carlo Methods, Numerical Integration, Chaos
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Computational Statistical Mechanics
- DFT, Cellular Automata, DLA, Ising Model, Molecular Dynamics, Simulation Techniques
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Spectral Theory of Matrices
- LU, QR, power iteration, SVD, PCA methods, Perron-Frobenius theorem.
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Introduction to Computer Science II (icc2)
- Sorting Algorithms, Search Algorithms, Complexity Analysis
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- Linked Lists, Stacks, Queues, Trees
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Computational Modelling in Graphs
- BFS, DFS, Tarjan, Dijkstra, shortest path algorithms.
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- Dynamic Programming, Greedy Algorithms, Contest Problems
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- Network Analysis, Community Detection, Statistics
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- Data Visualization, Statistical Analysis, Machine Learning
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- Probability Theory, Distributions, Bayesian Inference
I'm a big fan of open-source projects and software! Here are some repositories that you might find interesting:
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My Emacs Configurations
Custom Emacs setup with configurations for various languages and tools. -
My Fork of the ST Terminal
Customized version of the Suckless terminal—lightweight and highly efficient. -
My System's Dotfiles
A collection of configuration files that track my journey from Ubuntu to Arch Linux. Great for finding inspiration on how to tweak and optimize your Linux setup!