SHARC molecular dynamics software

SHARC
Initial release	2014
Stable release	2.1 / 14 October 2019; 4 years ago.
Written in	Fortran, Python
Operating system	Linux, any other Unix variety
Type	Molecular dynamics (simulation)
License	GNU GPL
Website	sharc-md.org

SHARC (Surface Hopping including ARbitrary Couplings) is an ab initio molecular dynamics program suite primarily dedicated to study the excited-state dynamics of molecules. It is free for academic use, open source released under the GNU General Public License.^[2]

History[edit]

The SHARC software suite was made publicly available in October 2014.^[3] It is developed by the SHARC development team in the group of Prof. Leticia González at the Institute of Theoretical Chemistry at the University of Vienna, Austria.

Features[edit]

The SHARC molecular dynamics software can treat non-adiabatic couplings at conical intersections, intersystem crossing induced by spin-orbit coupling, and laser couplings on an equal footing.^[4] It has interfaces to the ab initio software packages MOLPRO, MOLCAS, ORCA (quantum chemistry program), Gaussian (software), TURBOMOLE, COLUMBUS (needs MOLCAS), BAGEL and to user-created LVC (linear vibronic coupling) models, to machine learning properties via the SchNarc approach,^[5] as well as to a tool for analytical potentials. Furthermore, it includes auxiliary Python scripts for setup, maintenance and analysis of ensembles of trajectories.

Applications[edit]

The underlying methodology is based on Surface hopping, a semiclassical technique in computational chemistry. SHARC extends this method to treat spin-orbit couplings and laser interactions on an equal footing in addition to the originally included non-adiabatic effects.^[4] It has been applied to study strong laser interactions in the IBr molecule. Further applications, deal with photorelaxation in SO2, cytosine, and uracil^[6]

References[edit]

^ "Molecular Dynamics mailing list". jiscmail.ac.uk. Retrieved 2022-12-08.
^ ^a ^b "Terms of Use". sharc-md.org. Retrieved 2022-12-08.
^ "Molecular Dynamics mailing list". jiscmail.ac.uk. Retrieved 2014-11-23.
^ ^a ^b Richter, Martin; Marquetand, Philipp; González-Vázquez, Jesús; Sola, Ignacio; González, Leticia (2011-05-10). "SHARC: ab Initio Molecular Dynamics with Surface Hopping in the Adiabatic Representation Including Arbitrary Couplings". Journal of Chemical Theory and Computation. 7 (5): 1253–1258. doi:10.1021/ct1007394. ISSN 1549-9618. PMID 26610121.
^ Westermayr, Julia; Gastegger, Michael; Marquetand, Philipp (2020-04-20). "Combining SchNet and SHARC: The SchNarc Machine Learning Approach for Excited-State Dynamics". Journal of Physical Chemistry Letters. 11 (10): 3828–3834. doi:10.1021/acs.jpclett.0c00527. PMC 7246974.
^ "Publications containing SHARC". Retrieved 2014-11-23.

External links[edit]

Official website

[Molecular_Dynamics_mailing_list21-1] "Molecular Dynamics mailing list". jiscmail.ac.uk. Retrieved 2022-12-08.

[Terms_of_Use-2] "Terms of Use". sharc-md.org. Retrieved 2022-12-08.

[Molecular_Dynamics_mailing_list10-3] "Molecular Dynamics mailing list". jiscmail.ac.uk. Retrieved 2014-11-23.

[SHARC1-4] Richter, Martin; Marquetand, Philipp; González-Vázquez, Jesús; Sola, Ignacio; González, Leticia (2011-05-10). "SHARC: ab Initio Molecular Dynamics with Surface Hopping in the Adiabatic Representation Including Arbitrary Couplings". Journal of Chemical Theory and Computation. 7 (5): 1253–1258. doi:10.1021/ct1007394. ISSN 1549-9618. PMID 26610121.

[5] Westermayr, Julia; Gastegger, Michael; Marquetand, Philipp (2020-04-20). "Combining SchNet and SHARC: The SchNarc Machine Learning Approach for Excited-State Dynamics". Journal of Physical Chemistry Letters. 11 (10): 3828–3834. doi:10.1021/acs.jpclett.0c00527. PMC 7246974.

[6] "Publications containing SHARC". Retrieved 2014-11-23.

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