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CRYSTAL23: A Program for Computational Solid State Physics and Chemistry

Alessandro ErbaDipartimento di Chimica, Università di Torino, via Giuria 5, 10125 Torino, ItalyJacques K. DesmaraisDipartimento di Chimica, Università di Torino, via Giuria 5, 10125 Torino, ItalySilvia CasassaDipartimento di Chimica, Università di Torino, via Giuria 5, 10125 Torino, ItalyBartolomeo CivalleriDipartimento di Chimica, Università di Torino, via Giuria 5, 10125 Torino, ItalyLorenzo DonàDipartimento di Chimica, Università di Torino, via Giuria 5, 10125 Torino, ItalyIan J. BushSTFC Rutherford Appleton Laboratory, Chilton Didcot, Oxfordshire OX11 0QX, United KingdomBarry G. SearleSFTC Daresbury Laboratory, Daresbury, Cheshire WA4 4AD, United KingdomLorenzo MaschioDipartimento di Chimica, Università di Torino, via Giuria 5, 10125 Torino, ItalyLoredana Edith-DagaDipartimento di Chimica, Università di Torino, via Giuria 5, 10125 Torino, ItalyAlessandro CossardDipartimento di Chimica, Università di Torino, via Giuria 5, 10125 Torino, ItalyChiara RibaldoneDipartimento di Chimica, Università di Torino, via Giuria 5, 10125 Torino, ItalyEleonora AscrizziDipartimento di Chimica, Università di Torino, via Giuria 5, 10125 Torino, ItalyNaiara L. MaranaDipartimento di Chimica, Università di Torino, via Giuria 5, 10125 Torino, ItalyJean‐Pierre FlamentUniversité de Lille, CNRS, UMR 8523 ─ PhLAM ─ Physique des Lasers, Atomes et Molécules, 59000 Lille, FranceBernard KirtmanDepartment of Chemistry and Biochemistry, University of California, Santa Barbara, California 93106, United States

2022en

ABI

Annotatsiya

The Crystal program for quantum-mechanical simulations of materials has been bridging the realm of molecular quantum chemistry to the realm of solid state physics for many years, since its first public version released back in 1988. This peculiarity stems from the use of atom-centered basis functions within a linear combination of atomic orbitals (LCAO) approach and from the corresponding efficiency in the evaluation of the exact Fock exchange series. In particular, this has led to the implementation of a rich variety of hybrid density functional approximations since 1998. Nowadays, it is acknowledged by a broad community of solid state chemists and physicists that the inclusion of a fraction of Fock exchange in the exchange-correlation potential of the density functional theory is key to a better description of many properties of materials (electronic, magnetic, mechanical, spintronic, lattice-dynamical, etc.). Here, the main developments made to the program in the last five years (i.e., since the previous release, Crystal17) are presented and some of their most noteworthy applications reviewed.

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DOI: 10.1021/acs.jctc.2c00958

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