- #GREYISH LATTICE PATTERN AROUND MOVIE#
- #GREYISH LATTICE PATTERN AROUND INSTALL#
Install the test dependencies: $ pip install -r requirements_test.txt This project uses pytest and hypothesis to run tests. There is an environment.yml located in the binder folder in this project which can be used to create the environment:Ĭonda env create -f binder/environment.yml Development Testing
Not yet available in conda-forge, but you can install it in a conda environment using pip.
If you want to be able to play around with the functions themselves, consider using pip install -e. If you want to install from source, that is of course also possible: git clone The package is available on pypi: pip install latticegen Download and run the notebook on a local machine for better performance.) (Note: performance in the mybinder environment is somewhat slow. "Measuring local moiré lattice heterogeneity of twisted bilayer grapheneĬlick the "Launch binder" button above to open an interactive notebook directly in your browser.
#GREYISH LATTICE PATTERN AROUND MOVIE#
Edge dislocations can be added to the lattice as well.Ī simple Python notebook to interactively generate visualizations of moire patterns of hexagonal lattices at different angles is included.Ī high resolution resulting movie of varying twist angle can be found here.įurthermore, the effect of uniaxial deformation along a single direction as described in e.g. In addition, arbitrary deformations can be rendered (by passing a deformation tensor to the shift parameter). Linear distortions, such as a uniaxial strain along an arbitrary direction and rotations are supported. Trigonal, hexagonal, square lattices as well as quasi lattices can be created and combined. If you are looking to generate more schematic like hexagonal lattice drawings, have a look at excellent hexalattice. This repository contains Python code to generate lattices with values reasonably like experimental (e.g. To illustrate the work as done in our own paper "Direct evidence for flat bands in twisted bilayer graphene from nano-ARPES" ( arXiv version here), I created this repository. ĭespite the considerable hype concerning this discovery, little code exists to visualize the moiré pattern of two graphene layers. Magic angle bilayer graphene was shown to be superconducting in 2018. Easily generate renders of lattices, moiré lattices and even quasi-lattices in Python.
0 kommentar(er)
