Nuclear data processing with legacy NJOY

Migrated to: https://gitlab.com/Oslandia/albion

Python ENDF Parser

C/C++ library and Python bindings for x-ray cross sections, x-ray source spectra modeling, multi-material beam hardening correction, and dual energy decomposition algorithms

Tools for calculating structural member cross sectional properties and a database of standard properties.

Code for calculating Coherent Elastic Neutrino-Nucleus Scattering (CEvNS) cross sections and recoil spectra. Also includes code for obtaining New Physics constraints from the COHERENT-2017 results.

A PyQt5 app catered to the exploration industry for visualizing geologic drill hole data with features like cross-sections, simple 3D views, strip logs, scatter plots, and downhole line plots. Includes data transformation techniques like factor analysis, desurveying, and alpha-beta conversion.

xsec is a tool for fast evaluation of cross-sections, taking advantage of the power and flexibility of Gaussian process regression.

Python package for access, manipulation, and analysis of thermal neutron-capture gamma-ray data from the Evaluated Gamma-ray Activation File (EGAF) library.

CoSIMS, a Collision Simulator for Ion Mobility Spectrometry (Journal Article: https://doi.org/10.1021/acs.jpcb.9b01018)

Excel VBA library for creating steel shape objects based on the AISC Steel Manual.

handy tools for (engineering) geological work

Python script and tools to compute cross-sections along a streamline in python and ArcGIS.

Library to compute cross-sections and decay network of relevance for Galactic Cosmic Ray physics

Software for calculation of collisional cross sections

A small python library to read multigroup nuclear data libraries.

A Graphical User Interface for GANDR

MatBase provides access to an extensive database of material parameters, inelastic mean free paths (IMFP), photoionization binding energies, cross sections, and asymmetry parameters. Additionally, MatBase includes a suite of functions for users to load, process, model and fit their own data, making it an indispensable tool in the field.

This program, which was compiled using the MATLAB application, is a program that can calculate cross sections and perform multipol decomposition of the case of electromagnetic wave scattering in a system of coated spheres. This program was made as my undergraduate final project. The theory used to explain this scattering case is the Mie theory.

This model is a simple method to classify, quantify and illustrate the uncertainty in subsurface interpretation using python open source libraries. This model takes a practical and coding focused approach to visualise the uncertainty in subsurface interpretations by calculating zones and levels of uncertainty—the Five uncertainty zones created b…