Your search keyword '"Nascimento, Daniel R."' showing total 2 results

1. In Silico Ultrafast Nonlinear Spectroscopy Meets Experiments: The Case of Perylene Bisimide Dye

Author

Segatta, Francesco, Russo, Mattia, Nascimento, Daniel R, Presti, Davide, Rigodanza, Francesco, Nenov, Artur, Bonvicini, Andrea, Arcioni, Alberto, Mukamel, Shaul, Maiuri, Margherita, Muccioli, Luca, Govind, Niranjan, Cerullo, Giulio, and Garavelli, Marco

Subjects

Bioengineering, Theoretical and Computational Chemistry, Biochemistry and Cell Biology, Computer Software, Chemical Physics

Abstract

Spectroscopy simulations are of paramount importance for the interpretation of experimental electronic spectra, the disentangling of overlapping spectral features, and the tracing of the microscopic origin of the observed signals. Linear and nonlinear simulations are based on the results drawn from electronic structure calculations that provide the necessary parameterization of the molecular systems probed by light. Here, we investigate the applicability of excited-state properties obtained from linear-response time-dependent density functional theory (TDDFT) in the description of nonlinear spectra by employing the pseudowavefunction approach and compare them with benchmarks from highly accurate RASSCF/RASPT2 calculations and with high temporal resolution experimental results. As a test case, we consider the prediction of femtosecond transient absorption and two-dimensional electronic spectroscopy of a perylene bisimide dye in solution. We find that experimental signals are well reproduced by both theoretical approaches, showing that the computationally cheaper TDDFT can be a suitable option for the simulation of nonlinear spectroscopy of molecular systems that are too large to be treated with higher-level RASSCF/RASPT2 methods.

Published

2021

2. The Chronus Quantum software package.

Author

Williams‐Young, David B., Petrone, Alessio, Sun, Shichao, Stetina, Torin F., Lestrange, Patrick, Hoyer, Chad E., Nascimento, Daniel R., Koulias, Lauren, Wildman, Andrew, Kasper, Joseph, Goings, Joshua J., Ding, Feizhi, DePrince, A. Eugene, Valeev, Edward F., and Li, Xiaosong

Subjects

INTEGRATED software, COMPUTER software, ATOMIC orbitals, STRUCTURAL analysis (Engineering), ELECTRONIC structure

Abstract

The Chronus Quantum (ChronusQ) software package is an open source (under the GNU General Public License v2) software infrastructure which targets the solution of challenging problems that arise in ab initio electronic structure theory. Special emphasis is placed on the consistent treatment of time dependence and spin in the electronic wave function, as well as the inclusion of relativistic effects in said treatments. In addition, ChronusQ provides support for the inclusion of uniform finite magnetic fields as external perturbations through the use of gauge‐including atomic orbitals. ChronusQ is a parallel electronic structure code written in modern C++ which utilizes both message passing implementation and shared memory (OpenMP) parallelism. In addition to the examination of the current state of code base itself, a discussion regarding ongoing developments and developer contributions will also be provided. This article is categorized under:Software > Quantum ChemistryElectronic Structure Theory > Ab Initio Electronic Structure MethodsElectronic Structure Theory > Density Functional Theory [ABSTRACT FROM AUTHOR]

Published

2020