The Dalton quantum chemistry program system

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Dalton is a powerful general-purpose program system for the study of molecular electronic structure at the Hartree-Fock, Kohn-Sham, multiconfigurational self-consistent-field, Møller-Plesset, configuration-interaction, and coupled-cluster levels of theory. Apart from the total energy, a wide variety...

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Autores principales: Aidas, K., Angeli, C., Bak, K.L., Bakken, V., Bast, R., Boman, L., Christiansen, O., Cimiraglia, R., Coriani, S., Dahle, P., Dalskov, E.K., Ekström, U., Enevoldsen, T., Eriksen, J.J., Ettenhuber, P., Fernández, B., Ferrighi, L., Fliegl, H., Frediani, L., Hald, K., Halkier, A., Hättig, C., Heiberg, H., Helgaker, T., Hennum, A.C., Hettema, H., Hjertenæs, E., Høst, S., Høyvik, I.-M., Iozzi, M.F., Jansík, B., Jensen, H.J.A., Jonsson, D., Jørgensen, P., Kauczor, J., Kirpekar, S., Kjærgaard, T., Klopper, W., Knecht, S., Kobayashi, R., Koch, H., Kongsted, J., Krapp, A., Kristensen, K., Ligabue, A., Lutnæs, O.B., Melo, J.I., Mikkelsen, K.V., Myhre, R.H., Neiss, C., Nielsen, C.B., Norman, P., Olsen, J., Olsen, J.M.H., Osted, A., Packer, M.J., Pawlowski, F., Pedersen, T.B., Provasi, P.F., Reine, S., Rinkevicius, Z., Ruden, T.A., Ruud, K., Rybkin, V.V., Sałek, P., Samson, C.C.M., de Merás, A.S., Saue, T., Sauer, S.P.A., Schimmelpfennig, B., Sneskov, K., Steindal, A.H., Sylvester-Hvid, K.O., Taylor, P.R., Teale, A.M., Tellgren, E.I., Tew, D.P., Thorvaldsen, A.J., Thøgersen, L., Vahtras, O., Watson, M.A., Wilson, D.J.D., Ziolkowski, M., Ågren, H.
Formato: INPR
Lenguaje:English
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_17590876_v_n_p_Aidas
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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Sumario:Dalton is a powerful general-purpose program system for the study of molecular electronic structure at the Hartree-Fock, Kohn-Sham, multiconfigurational self-consistent-field, Møller-Plesset, configuration-interaction, and coupled-cluster levels of theory. Apart from the total energy, a wide variety of molecular properties may be calculated using these electronic-structure models. Molecular gradients and Hessians are available for geometry optimizations, molecular dynamics, and vibrational studies, whereas magnetic resonance and optical activity can be studied in a gauge-origin-invariant manner. Frequency-dependent molecular properties can be calculated using linear, quadratic, and cubic response theory. A large number of singlet and triplet perturbation operators are available for the study of one-, two-, and three-photon processes. Environmental effects may be included using various dielectric-medium and quantum-mechanics/molecular-mechanics models. Large molecules may be studied using linear-scaling and massively parallel algorithms. Dalton is distributed at no cost from http://www.daltonprogram.org for a number of UNIX platforms. © 2013 John Wiley & Sons, Ltd.

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