Saved in:
Bibliographic Details
Main Author: harihardiyan
Format: Recurso digital
Language:
Published: Zenodo 2026
Online Access:https://doi.org/10.5281/zenodo.18147019
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866901607809024000
author harihardiyan
author_facet harihardiyan
contents <p>Summary This is the initial stable release of the Graphene Tight-Binding Audit Toolkit. This version provides a robust framework for validating the physical and topological properties of graphene's electronic structure using JAX-accelerated numerical methods.</p> <p>Key Features High-Precision K-Point Refinement: Accurate Dirac point location using Newton-Raphson. Topological Audits: Calculation and verification of the Berry Phase (π). Symmetry Checks: Verification of C3 rotation and tau-gauge invariance. Scaling Audits: Numerical validation of vF scaling vs. hopping (t) and lattice constant (a). Linear Regime Analysis: Detection of the energy range where the Dirac cone approximation is valid. Verified Environment This release has been audited and passed all physical assertions on:</p> <p>Python: 3.12.x JAX: 0.7.2 Precision: Float64 (XLA enabled) How to use Download the source code, install dependencies via pip install jax jaxlib, and run graphene_audit.py</p>
format Recurso digital
id zenodo_https___doi_org_10_5281_zenodo_18147019
institution Zenodo
language
publishDate 2026
publisher Zenodo
record_format zenodo
spellingShingle harihardiyan/Graphene-Tight-Binding-Audit-Toolkit: Initial Stable Release: Graphene Audit Toolkit
harihardiyan
<p>Summary This is the initial stable release of the Graphene Tight-Binding Audit Toolkit. This version provides a robust framework for validating the physical and topological properties of graphene's electronic structure using JAX-accelerated numerical methods.</p> <p>Key Features High-Precision K-Point Refinement: Accurate Dirac point location using Newton-Raphson. Topological Audits: Calculation and verification of the Berry Phase (π). Symmetry Checks: Verification of C3 rotation and tau-gauge invariance. Scaling Audits: Numerical validation of vF scaling vs. hopping (t) and lattice constant (a). Linear Regime Analysis: Detection of the energy range where the Dirac cone approximation is valid. Verified Environment This release has been audited and passed all physical assertions on:</p> <p>Python: 3.12.x JAX: 0.7.2 Precision: Float64 (XLA enabled) How to use Download the source code, install dependencies via pip install jax jaxlib, and run graphene_audit.py</p>
title harihardiyan/Graphene-Tight-Binding-Audit-Toolkit: Initial Stable Release: Graphene Audit Toolkit
url https://doi.org/10.5281/zenodo.18147019