Publications
R. Flores-Moreno, E. Posada, F. Moncada, J. Romero, J. Charry, M. Díaz-Tinoco, S.A. González, N.F. Aguirre, A. Reyes, LOWDIN: The any particle molecular orbital code. Int. J. Quantum Chem.. 114. (1), 50–56 (2014).
E. Posada, F. Moncada, A. Reyes, Negative muon chemistry: the quantum muon effect and the finite nuclear mass effect. J. Phys. Chem. A. 118. (40), 9491–9499 (2014).
M. Diaz-Tinoco, J. Romero, J. V. Ortiz, A. Reyes, R. Flores-Moreno, A generalized any particle propagator theory: Prediction of proton affinities and acidity properties with proton propagator. J. Chem. Phys. 138:194108 (2013)
J. Romero, E. Posada, R. Flores-Moreno, A. Reyes, A generalized any particle propagator theory: assessment of nuclear quantum effects on electron propagator calculations. J. Chem. Phys. 137(7):175105 (2012)
F. Moncada, D. Cruz, A Reyes, Muonic Alchemy: Transmuting Elements With the Inclusion of Negative Muons, Chem. Phys. Lett., 539, 209 (2012)
F. Moncada, E. Posada, R. Flores, A. Reyes, A Cubic Scaling Non-Born Oppenheimer Method: Electronic Auxiliary Density Functional Theory plus Nuclear Localized Hartree Product. Chem. Phys. 400, 103, (2012)
E. F. Posada, F. Moncada and A. Reyes, "Optimizacion del Paquete Computacional para el Calculo de Estructura Nucleo-electronica APMO", Rev. Colomb. Quim. 40,35 (2011)
S. A. González, A. Reyes, ”Implementación del método del gradiente analítico de la energía en al teoría del orbital molecular nuclear y electrónico”, Rev. Colom. Quim. 38 109 (2009)
S. A. González, N. F. Aguirre, A. Reyes “APMO: A Computer Program Based on the Electronic and non-Electronic Molecular Orbital Theory for Studies of Nuclear Quantum Effects”, Rev. Colomb. Quim. 37, 93 (2008)
S. A. González, N. F. Aguirre, A. Reyes “Theoretical Investigation of Isotope Effects: The Any-Particle Molecular Orbital Code”, Int. J. Quant. Chem. 108, 1742 (2008)