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Web application to explore the QUEST database. https://lcpq.github.io/QUESTDB_website
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QUEST Website

This repository contains the QUEST database, and a web application to plot statistical indicators. The web app is built using the hugo static website generator with the beautifulhugo theme.

All the data are stored in the data directory.

Requirements

Quick start

To clone this website and use it locally, run the following commands.

git clone --recurse-submodules https://github.com/LCPQ/QUESTDB_website/
cd QUESTDB_website
make serve

Now you can use your browser to navigate to the website using the URL given by Hugo in your terminal (usually http://localhost:1313)

The QUEST database

The QUEST website has been designed to gather and analyze the highly-accurate vertical excitation energies produced by the QUEST project. The QUEST database contains more than 470 accurate vertical excitation energies of various natures (\pi \to \pi^{*}, n \to \pi^{*}, double excitation, Rydberg, singlet, doublet, triplet, etc) for small- and medium-sized molecules. These values have been obtained using a combination of high-order coupled cluster and selected configuration interaction calculations using increasingly large diffuse basis sets. One of the key aspect of the QUEST dataset is that it does not rely on any experimental values, avoiding potential biases inherently linked to experiments and facilitating in the process theoretical cross comparisons. Following this composite protocol, we have been able to produce theoretical best estimates (TBEs) with the aug-cc-pVTZ basis set, as well as basis set corrected TBEs (i.e., near the complete basis set limit) for each of these transitions. Thanks to the present website, one can easily test and compare the accuracy of a given method with respect to various variables such as the molecule size or its family, the nature of the excited states, the size of the basis set, etc.

The tools

tools a series of python scripts used to generate data:

  • datafileBuilder: A python script to generate data from custom LaTeX input file. See examples.
  • metarecover: A python script is used to regenerate the metadata from the previous git history state. So you can remove a data file to regenerate it from a LaTeX input file with datafileBuilder and recover the metadata from the previous version using metarecover.
  • ADC25generator: script used to build ADC(2.5) data files from ADC(2) and ADC(3) data files.
  • generate_data: script used to wrap all data file into one database.json file.