Wave function models
- Kramers restricted Hartree-Fock or Kohn-Sham determinant for closed-shell singlets
Electronic Circular Dichroism with DR-TDDFT
Documentation on the molecular calculation of electronic circular dichroism spectra (ECD) using relativistic damped-response time-dependent density functional theory (DR-TDDFT). In the current version of ReSpect, the methodology can be combined with the 1C, (e)amfX2C or 4C Hamiltonian and applied to closed-shell molecular systems.
Feature List
Hamiltonians
- non-relativistic one-component (1c)
- relativistic four-component (4c) Dirac-Coulomb
- relativistic two-component (2c) involving 1eX2C, amfX2C, eamfX2C or mmfX2C Hamiltonian models
- scalable speed of light
- switchable spin-orbit interaction
DFT non-collinear functionals
- local (SVWN5)
- GGA (PBE,BLYP,KT2,BP86,PP86)
- hybrid (PBE0,B3LYP)
- range-separated (LC-SVWN5,LC-BLYP,CAM-B3LYP)
DFT non-collinear analytical kernels
- full expressions including the GGA part
- adiabatic local density approximation (ALDA/XALDA)
Integral evaluation techniques
- analytic with an in-built restricted kinetic balanced (RKB) condition for the small-component
- one-center approximation for the SSSS-type electron repulsion integrals
Additional features
- Tamm–Dancoff approximation (TDA)
- core-valence separation (CVS)
- restart from a previous run
- molecular orbital analysis
- parallel execution on shared-memory parallel architectures (SMPs)
Related Publications
S. Komorovsky, P. Cherry, and M. Repisky
Four-component relativistic time-dependent density-functional theory using a stable noncollinear DFT ansatz applicable to both closed- and open-shell systems
J. Chem. Phys. 151, 184111 (2019)
L. Konecny, M. Repisky, K. Ruud, and S. Komorovsky
Relativistic four-component linear damped response TDDFT for electronic absorption and circular dichroism calculations
J. Chem. Phys. 151, 194112 (2019)
L. Konecny, J. Vícha, S. Komorovsky, K. Ruud, and M. Repisky
Accurate X-ray Absorption Spectra near L- and M-Edges from Relativistic Four-Component Damped Response Time-Dependent Density Functional Theory
Inorg. Chem. 61, 830–846 (2022)
L. Konecny, S. Komorovsky, J. Vicha, K. Ruud, and M. Repisky
Exact two-component TDDFT with simple two-electron picture-change corrections: X-ray absorption spectra near L- and M-edges of four-component quality at two-component cost
J. Phys. Chem. A 127, 1360–1376 (2023)
Program Reference
M. Repisky, S. Komorovsky, M. Kadek, L. Konecny, U. Ekstrom, E. Malkin,
M. Kaupp, K. Ruud, O. L. Malkina, and V. G. Malkin
ReSpect: Relativistic spectroscopy DFT program package
J. Chem. Phys. 152, 184101 (2020)
Additional contributions from
R. Bast (AutoCMake),
R. Di Remigio (PCMSolver),
I. Malkin-Ondik (DKH2), and S. Knecht (MPI parallelization)
Latest Publications
Book chapter on relativistic real-time electron dynamics
May, 2024
Book chapter on relativistic theory of EPR and (p)NMR
May, 2024
Useful Links
Our Contacts
Department of Chemistry
UiT The Arctic University of Norway
Tromsø, NO-9037 Norway
Email: info@respectprogram.eu