Quantum crystallography: A perspective.
Lou Massa,Chérif F. Matta +1 more
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TLDR
Applications to crystals show that quantum mechanical density matrices of large molecules can be extracted from X‐ray scattering data by implementing a fragmentation method termed the kernel energy method (KEM), and how KEM can be used within the context of quantum crystallography to derive quantum mechanical properties of biological molecules.Abstract:
Extraction of the complete quantum mechanics from X-ray scattering data is the ultimate goal of quantum crystallography. This article delivers a perspective for that possibility. It is desirable to have a method for the conversion of X-ray diffraction data into an electron density that reflects the antisymmetry of an N-electron wave function. A formalism for this was developed early on for the determination of a constrained idempotent one-body density matrix. The formalism ensures pure-state N-representability in the single determinant sense. Applications to crystals show that quantum mechanical density matrices of large molecules can be extracted from X-ray scattering data by implementing a fragmentation method termed the kernel energy method (KEM). It is shown how KEM can be used within the context of quantum crystallography to derive quantum mechanical properties of biological molecules (with low data-to-parameters ratio). © 2017 Wiley Periodicals, Inc.read more
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Journal ArticleDOI
Quantum Crystallography: Current Developments and Future Perspectives
Alessandro Genoni,Lukáš Bučinský,Nicolas Claiser,Julia Contreras-García,Birger Dittrich,Paulina M. Dominiak,Enrique Espinosa,Carlo Gatti,Paolo Giannozzi,Jean-Michel Gillet,Dylan Jayatilaka,Piero Macchi,Anders Ø. Madsen,Lou Massa,Chérif F. Matta,Kenneth M. Merz,Philip N. H. Nakashima,Holger Ott,Ulf Ryde,Karlheinz Schwarz,Marek Sierka,Simon Grabowsky +21 more
TL;DR: An overview over current research that is related to a broader notion of QCr is given, and options how QCr can evolve to become a complete and independent domain of natural sciences are discussed.
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Libraries of Extremely Localized Molecular Orbitals. 3. Construction and Preliminary Assessment of the New Databanks
Benjamin Meyer,Alessandro Genoni +1 more
TL;DR: The preliminary test calculations have shown that, compared to more traditional methods of quantum chemistry, the transfers from the novel ELMO databanks allow to obtain wave function and electron densities of large polypeptides and proteins at a significantly reduced computational cost.
Journal ArticleDOI
Quantum Mechanics/Extremely Localized Molecular Orbital Method: A Fully Quantum Mechanical Embedding Approach for Macromolecules.
TL;DR: In this article, a multiscale embedding quantum mechanics/extremely localized molecular orbital (QM/ELMO) method was proposed to treat chemically relevant regions of large biological molecules through usual methods of quantum chemistry while describing the remaining parts of the systems by means of frozen extremely localized molecular orbitals transferred from properly constructed libraries.
Journal ArticleDOI
X-ray Constrained Spin-Coupled Wavefunction: a New Tool to Extract Chemical Information from X-ray Diffraction Data.
TL;DR: Preliminary results have shown that the new technique is really able to efficiently capture the effects of the crystal environment on the electronic structure, and can be considered as a new useful tool to perform chemically sound analyses of the X-ray diffraction data.
Journal ArticleDOI
Quantum Mechanics/Extremely Localized Molecular Orbital Embedding Strategy for Excited States: Coupling to Time-Dependent Density Functional Theory and Equation-of-Motion Coupled Cluster.
TL;DR: This work presents the coupling of the QM/ELMO philosophy with Time-Dependent Density Functional Theory (TDDFT) and Equation-of-Motion Coupled Cluster with single and double substitutions (EOM-CCSD), and suggests the coupling with other quantum chemical strategies for excited states.
References
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Coherent X‐Ray Scattering for the Hydrogen Atom in the Hydrogen Molecule
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