A collection of forward and inverse Mie solving routines for Python 3, based on Bohren and Huffman's Mie Theory derivations
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Updated
Jul 5, 2024 - Python
A collection of forward and inverse Mie solving routines for Python 3, based on Bohren and Huffman's Mie Theory derivations
Applets for students to playfully interact with physical relationships and atmospheric models in an inquiry-based course on Atmospheric Physics.
Python library for the analysis and visualization of data from a Scanning Mobility Particle Sizer (SMPS) and other similar instruments (SEMS, OPC's).
Python tools for climate and air quality model evaluation
Aerosol Inorganic-Organic Mixtures Functional groups Activity Coefficients (AIOMFAC) model code (used within the online model AIOMFAC-web)
Python library for reading and processing Lidar and ceilometer data
A Julia package for working differential mobility analyzers.
MATLAB code designed to invert tandem aerosol measurements to find two-dimensional size distributions (e.g., CPMA-DMA following Sipkens et al. (2020) or CPMA-SP2 following Naseri et al. (2021)). Formerly mat-2d-aerosol-inversion.
A Python package designed for aerosol science, providing various data processing and visualization tools.
Kinetic model of multicomponent particle evaporation, in python
a simple, fast, and powerful particle simulator
Code in multiple languages to evaluate the transfer function for particle mass analyzers (including the APM and CPMA), including a web app and Matlab version (cf. github.com/tsipkens/mat-tfer-pma).
MATLAB/GNU Octave code to predict the hygroscopicity parameter kappa for organic compounds from functional group composition.
Turn a Raspberry Pi into serial data logger & remote access client for MetOne Instruments E-BAM PLUS
TUT FYS-1320 Methods in Physics, 2016-2017
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