Karen Oda Hjorth Minde Dundas scite author profile

Karen Oda Hjorth Minde Dundas

5Publications

80Citation Statements Received

200Citation Statements Given

How they've been cited

How they cite others

257

200

Affiliations

UiT The Arctic University of Norway

Publications

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Dalton Project: A Python platform for molecular- and electronic-structure simulations of complex systems

Olsen

Reine

Vahtras

et al. 2020

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The Dalton Project provides a uniform platform access to the underlying full-fledged quantum chemistry codes Dalton and LSDalton as well as the PyFraME package for automatized fragmentation and parameterization of complex molecular environments. The platform is written in Python and defines a means for library communication and interaction. Intermediate data such as integrals are exposed to the platform and made accessible to the user in the form of NumPy arrays, and the resulting data are extracted, analyzed, and visualized. Complex computational protocols that may, for instance, arise due to a need for environment fragmentation and configuration-space sampling of biochemical systems are readily assisted by the platform. The platform is designed to host additional software libraries and will serve as a hub for future modular software development efforts in the distributed Dalton community.

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Harmonic Infrared and Raman Spectra in Molecular Environments Using the Polarizable Embedding Model

Dundas

Beerepoot

Ringholm

et al. 2021

J. Chem. Theory Comput.

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We present a fully analytic approach to calculate infrared (IR) and Raman spectra of molecules embedded in complex molecular environments modeled using the fragment-based polarizable embedding (PE) model. We provide the theory for the calculation of analytic second-order geometric derivatives of molecular energies and first-order geometric derivatives of electric dipole moments and dipole–dipole polarizabilities within the PE model. The derivatives are implemented using a general open-ended response theory framework, thus allowing for an extension to higher-order derivatives. The embedding-potential parameters used to describe the environment in the PE model are derived through first-principles calculations, thus allowing a wide variety of systems to be modeled, including solvents, proteins, and other large and complex molecular environments. Here, we present proof-of-principle calculations of IR and Raman spectra of acetone in different solvents. This work is an important step toward calculating accurate vibrational spectra of molecules embedded in realistic environments.

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Dataset for the "Harmonic Infrared and Raman Spectra in Molecular Environments using the Polarizable Embedding Model"

Dundas¹,

Ringholm²,

Beerepoot³

et al. 2020

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SpectroscPy: Python tools for spectroscopy

Dundas¹,

Ringholm²,

Cornaton³

et al. 2019

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SpectroscPy: The Python Package for Vibrational Spectroscopy

Dundas¹,

Ringholm²,

Cornaton³

et al. 2019

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