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  • Rutgers University

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Humboldt-Penguin/README.md

Hello!

I'm a third-year undergraduate at Rutgers University studying Physics and Computer Science. My primary research interest is Martian paleomagnetism and impact processes. I also like rock climbing :)

My CV (last updated April 2023, currently out of date).

Contact me: zain.eris.kamal@rutgers.edu.

Here are summaries/links to my repositories:


1. Software

RedPlanet (under heavy development / complete rewrite / data migration; but I'd be happy to help if you need a certain feature) — RedPlanet is a Python package created with the goal of making a handful of Mars geophysical datasets/analyses as accessible and convenient as possible, so you don't have to waste time finding/downloading/formatting data. Examples are heat flow/depth calculations with gamma-ray spectroscopy (GRS) data, digital elevation models up to 200m resolution (with parallelization/chunking to significantly half memory/storage use and increase accessing speed by 3-10 orders of magnitude), custom crustal thickness models (~23K options parameterized by any north/south crustal density, 16 reference interior models, and any crustal thickness at InSight), searchable crater databases, and MAVEN magnetometer data.


2. Research

Mars GeophysicsRutgers Dept. Planetary Sciences

  • Investigating the depth/formation/timing of crustal magnetic sources and implications for history of the Martian dynamo via impact craters. Mentored by Professor Lujendra Ojha.

High Energy Physics, Muon ScatteringRutgers Dept. Physics/Astronomy

  • Performing analysis/software development for the MUon Scattering Experiment (MUSE) group to investigate the proton radius puzzle. My primary contribution was developing a fast calorimeter simulation framework with Generative Adversarial Networks. Mentored by Professor Ronald Gilman.

Atmospheric/Solar PhysicsNJIT Dept. Solar Physics

  • Analyzed cloud-radiation feedback systems during hurricanes with new BBSO Earthshine solar reflectance data. Mentored by Professor Andrew Gerrard.

3. Independent Projects

Physics Simulations with VPython

  • Interactive simulations of the N-body problem, Rutherford scattering, magnetic vector fields, etc.

Space Science with SPICE

  • Analyzing Solar System orbits using NASA’s SPICE library.

Searching for Exoplanets with Lightkurve

  • Analyzing Kepler/TESS time series data for star brightness in search of transits.

Asteroid Spectra Classification with Machine Learning

  • Training multi-class Support Vector Machines (SVMs) to classify asteroid spectra.

Integrated Water Hardness Meter

  • MVP for a device that homeowners can install and use to monitor water hardness trends in pipes.

4. Misc

Learn Data Analysis with Python

  • We run a cluster for the Rutgers Physics department. This is one of our Spring 2023 workshops on learning basic data analysis with Python.

Pinned Loading

  1. redplanet redplanet Public

    Very out of date, large update coming soon. Feel free to email if you need anything.

    Python

  2. Mars-Magnetics-Research Mars-Magnetics-Research Public

    Analyzing the crustal magnetic field around craters for signs of impact-induced magnetization to understand the direction/lifetime of Mars's internal magnetic field.

    Jupyter Notebook

  3. Physics_Simulations Physics_Simulations Public

    Visualizing physical systems with python. Click on a picture to run!

    Jupyter Notebook 2 1

  4. HapPyCal HapPyCal Public

    Jupyter Notebook

  5. Albedo-Hurricane-Research Albedo-Hurricane-Research Public

    Quantifying the correlation between cloud cover over the Northern Atlantic and Earth's solar reflectance.

    Jupyter Notebook

  6. nixos-config nixos-config Public

    Nix