A package for refractive index values.
Project description
PyOptik is a Python tool designed to import refractive indexes and extinction coefficients for various materials across different wavelengths. The data provided by PyOptik can be used in numerous applications, including simulating light interactions with particles. All data is sourced from the reputable RefractiveIndex.INFO database.
Meta |
||
Testing |
||
PyPi |
||
Anaconda |
Features
Comprehensive Database Access: Seamlessly import refractive index and extinction coefficient data for a wide range of materials.
Simulation Ready: Ideal for light-matter interaction simulations, particularly in optics and photonics.
Simple API: Easy-to-use API that integrates well with other Python libraries.
Open Source: Fully open-source.
Installation
To install PyOptik, simply use pip or conda:
pip install PyOptik
conda install --channels martinpdes pyoptikBuilding the Material Library
PyOptik allows you to build and customize a local material library, importing material data from various categories. You can download the following categories of materials from the RefractiveIndex.INFO database:
classics: Commonly used optical materials.
glasses: Various types of glass materials.
metals: Different metal materials for optical simulations.
organics: Organic materials with optical properties.
others: Other optical materials.
all: Download all available categories at once.
To build a material library, use the build_library function. This will download and save the material data to your local machine.
Example: Building the Material Library:
In this example, we will download the others category of materials and remove any previously existing data in that category:
from PyOptik import MaterialBank
# Download the 'classics' category and remove previous files
MaterialBank.build_library('classics', remove_previous=True)Available Categories:
To download materials from another category, simply pass the category name as an argument to build_library. For example:
# Download materials from the 'glasses' category
MaterialBank.build_library('glasses')To download all material categories at once:
# Download all available material categories
MaterialBank.build_library('all')You can also set the remove_previous parameter to True to remove old data before downloading new material data.
Viewing Available Materials
Once you have built the material library, you can view all the available materials using the MaterialBank class. This will print a list of materials stored in your local library.
Example:
from PyOptik import MaterialBank
# Print the available materials in a tabulated format
MaterialBank.print_materials()Simple Usage
After installing PyOptik and building the material library, you can easily access material properties:
from PyOptik import MaterialBank
# Access the refractive index of BK7 glass
bk7 = MaterialBank.BK7
n = bk7.compute_refractive_index(0.55e-6)
print(f"Refractive index at 0.55 µm: {n}")Example
Here is a quick example demonstrating how to use PyOptik to retrieve and plot the refractive index of a material:
import numpy as np
from PyOptik import MaterialBank
# Define wavelength range
wavelengths = np.linspace(0.3e-6, 2.5e-6, 100)
# Retrieve refractive index for BK7 glass
bk7 = MaterialBank.BK7
n_values = bk7.compute_refractive_index(wavelengths)
# Plot the results
bk7.plot()This code produces the following figure:
Adding and Removing Custom Materials
You can add a custom material to your library by providing a URL from refractiveindex.info.
Adding a Custom Material:
from PyOptik import MaterialBank, MaterialType
# Define the URL of the YAML file and the destination
# Call the function to download the file
MaterialBank.add_material_to_bank(
filename='example_download',
material_type=MaterialType.SELLMEIER,
url='https://refractiveindex.info/database/data-nk/main/H2O/Daimon-19.0C.yml'
)
MaterialBank.print_available()Removing a Material:
You can also remove a material from the library as follows:
from PyOptik.utils import remove_element
MaterialBank.remove_item(filename='example_download')Testing
To test locally after cloning the GitHub repository, install the dependencies and run the tests:
git clone https://github.com/MartinPdeS/PyOptik.git
cd PyOptik
pip install .
pytestContributing
PyOptik is open to contributions. Whether you’re fixing bugs, adding new features, or improving documentation, your help is welcome! Please feel free to fork the repository and submit pull requests.
Contact Information
As of 2024, PyOptik is still under development. If you would like to collaborate, it would be a pleasure to hear from you. Contact me at:
Author: Martin Poinsinet de Sivry-Houle
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
Source Distribution
Built Distribution
File details
Details for the file pyoptik-1.9.1.post0.tar.gz.
File metadata
- Download URL: pyoptik-1.9.1.post0.tar.gz
- Upload date:
- Size: 383.6 kB
- Tags: Source
- Uploaded using Trusted Publishing? No
- Uploaded via: twine/5.1.1 CPython/3.9.20
File hashes
| Algorithm | Hash digest | |
|---|---|---|
| SHA256 | e7b69b1e075a5ce60ca65b5c3d34df2400d1f33ac724ae6ae08980e5adf30498 |
|
| MD5 | 2ef96d4c81d8402ebbff57b67e5ddb0b |
|
| BLAKE2b-256 | 80358fae4ecb9e478ad6284c05b8797f4898ef22e68cff2eb13ad7f60f5daa5c |
File details
Details for the file PyOptik-1.9.1.post0-py3-none-any.whl.
File metadata
- Download URL: PyOptik-1.9.1.post0-py3-none-any.whl
- Upload date:
- Size: 28.9 kB
- Tags: Python 3
- Uploaded using Trusted Publishing? No
- Uploaded via: twine/5.1.1 CPython/3.9.20
File hashes
| Algorithm | Hash digest | |
|---|---|---|
| SHA256 | ee8de8a0d679cd37ca0b972629a7792e6d8fb19fa2fc5499b037b5cde85df056 |
|
| MD5 | 81af42c7f08641f2322b04017e4fc414 |
|
| BLAKE2b-256 | f3e20156c5021d81919f71fe3b4071de3cc13f6947d209a89f49275154c20bd4 |
