TURBOMOLE: Today and Tomorrow

Yannick J. Franzke, Christof Holzer, Josefine H. Andersen, Tomislav Begušić, Florian Bruder, Sonia Coriani, Fabio Della Sala, Eduardo Fabiano, Daniil A. Fedotov, Susanne Fürst, Sebastian Gillhuber, Robin Grotjahn, Martin Kaupp, Max Kehry, Marjan Krstić, Fabian Mack, Sourav Majumdar, Brian D. Nguyen, Shane M. Parker, Fabian PaulyAnsgar Pausch, Eva Perlt, Gabriel S. Phun, Ahmadreza Rajabi, Dmitrij Rappoport, Bibek Samal, Tim Schrader, Manas Sharma, Enrico Tapavicza, Robert S. Treß, Vamsee Voora, Artur Wodyński, Jason M. Yu, Benedikt Zerulla, Filipp Furche, Christof Hättig, Marek Sierka, David P. Tew, Florian Weigend

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Abstract

TURBOMOLE is a highly optimized software suite for large-scale quantum-chemical and materials science simulations of molecules, clusters, extended systems, and periodic solids. TURBOMOLE uses Gaussian basis sets and has been designed with robust and fast quantum-chemical applications in mind, ranging from homogeneous and heterogeneous catalysis to inorganic and organic chemistry and various types of spectroscopy, light-matter interactions, and biochemistry. This Perspective briefly surveys TURBOMOLE's functionality and highlights recent developments that have taken place between 2020 and 2023, comprising new electronic structure methods for molecules and solids, previously unavailable molecular properties, embedding, and molecular dynamics approaches. Select features under development are reviewed to illustrate the continuous growth of the program suite, including nuclear electronic orbital methods, Hartree-Fock-based adiabatic connection models, simplified time-dependent density functional theory, relativistic effects and magnetic properties, and multiscale modeling of optical properties.
Original languageEnglish
JournalJournal of Chemical Theory and Computation
Volume19
Issue number20
Pages (from-to)6859–6890
ISSN1549-9618
DOIs
Publication statusPublished - 2023

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