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42 results on '"Site, L. Delle"'

1. Probing Spatial Locality in Ionic Liquids with the Grand Canonical Adaptive Resolution Molecular Dynamics Technique

Author

Jabes, B. Shadrack, Krekeler, C., Klein, R., and Site, L. Delle

Subjects
Physics - Chemical Physics
Abstract

We employ the Grand Canonical Adaptive Resolution Molecular Dynamics Technique (GC-AdResS) to test the spatial locality of the 1-ethyl 3-methyl imidazolium chloride liquid. In GC-AdResS atomistic details are kept only in an open sub-region of the system while the environment is treated at coarse-grained level, thus if spatial quantities calculated in such a sub-region agree with the equivalent quantities calculated in a full atomistic simulation then the atomistic degrees of freedom outside the sub-region play a negligible role. The size of the sub-region fixes the degree of spatial locality of a certain quantity. We show that even for sub-regions whose radius corresponds to the size of a few molecules, spatial properties are reasonably {reproduced} thus suggesting a higher degree of spatial locality, a hypothesis put forward also by other {researchers} and that seems to play an important role for the characterization of fundamental properties of a large class of ionic liquids., Comment: 25 pages, 18 figures

Published
2017
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2. Levy-Lieb principle: The bridge between the electron density of Density Functional Theory and the wavefunction of Quantum Monte Carlo

Author

Site, L. Delle

Subjects
Physics - Chemical Physics, Condensed Matter - Strongly Correlated Electrons, Mathematical Physics, Physics - Computational Physics
Abstract

The constrained-search principle introduced by Levy and Lieb, is proposed as a practical, though conceptually rigorous, link between Density Functional Theory (DFT) and Quantum Monte Carlo (QMC). The resulting numerical protocol realizes in practice the implicit key statement of DFT: "Given the three dimensional electron density of the ground state of a system of N electrons with external potential v(r) it is possible to find the corresponding 3N-dimensional wavefunction of ground state." From a numerical point of view, the proposed protocol can be employed to speed up the QMC procedure by employing DFT densities as a pre-selection criterion for the sampling of wavefunctions., Comment: 9 pages, 1 figure, paper in press in Chemical Physics Letters, 2015

Published
2014
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3. Classical-path integral adaptive resolution in molecular simulation: towards a smooth quantum-classical coupling

Author

Poma, A. B. and Site, L. Delle

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Statistical Mechanics
Abstract

Simulations that couple different classical molecular models in an adaptive way by changing the number of degrees of freedom on the fly, are available within reasonably consistent theoretical frameworks. The same does not occur when it comes to classical-quantum adaptivity. The main reason for this is the difficulty in describing a continuous transition between the two different kind of physical principles: probabilistic for the quantum and deterministic for the classical. Here we report the basic principles of an algorithm that allows for a continuous and smooth transition by employing the path integral description of atoms., Comment: 8 pages 4 figures

Published
2010
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4. Some fundamental problems for an energy conserving adaptive resolution molecular dynamics scheme

Author

Site, L. Delle

Subjects
Condensed Matter - Statistical Mechanics
Abstract

Adaptive resolution molecular dynamics (MD) schemes allow for changing the number of degrees of freedom on the fly and preserve the free exchange of particles between regions of different resolution. There are two main alternatives on how to design the algorithm to switch resolution using auxiliary ''switching'' functions; force based and potential energy based approach. In this work we show that, in the framework of classical MD, the latter presents fundamental conceptual problems which make unlikely, if not impossible, the derivation of a robust algorithm based on the potential energy., Comment: 4 pages, 1 figure (color); Phys.Rev.E (2007) in press

Published
2007
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5. Levy-Lieb constrained-search formulation as a minimization of the correlation functional

Author

Site, L. Delle

Subjects
Quantum Physics
Abstract

The constrained-search formulation of Levy and Lieb, which formally defines the exact Hohenberg-Kohn functional for any N-representable electron density, is here shown to be equivalent to the minimization of the correlation functional with respect to the N-1 conditional probability density, where N is number of electrons of the system. The consequences and implications of such a result are here analyzed and discussed via a practical example., Comment: 9 pages, no figures

Published
2007
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6. An analytic expression for the electronic correlation term of the kinetic functional

Author

Site, L. Delle

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We propose an analytic formula for the non-local Fisher information functional, or electronic kinetic correlation term, appearing in the expression of the kinetic density functional. Such an explicit formula is constructed on the basis of well-founded physical arguments and a rigorous mathematical prescription.

Published
2007
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7. Classical kinetic energy, quantum fluctuation terms and kinetic-energy functionals

Author

Hamilton, I. P., Mosna, Ricardo A., and Site, L. Delle

Subjects
Physics - Chemical Physics, Mathematical Physics, Quantum Physics
Abstract

We employ a recently formulated dequantization procedure to obtain an exact expression for the kinetic energy which is applicable to all kinetic-energy functionals. We express the kinetic energy of an N-electron system as the sum of an N-electron classical kinetic energy and an N-electron purely quantum kinetic energy arising from the quantum fluctuations that turn the classical momentum into the quantum momentum. This leads to an interesting analogy with Nelson's stochastic approach to quantum mechanics, which we use to conceptually clarify the physical nature of part of the kinetic-energy functional in terms of statistical fluctuations and in direct correspondence with Fisher Information Theory. We show that the N-electron purely quantum kinetic energy can be written as the sum of the (one-electron) Weizsacker term and an (N-1)-electron kinetic correlation term. We further show that the Weizsacker term results from local fluctuations while the kinetic correlation term results from the nonlocal fluctuations. For one-electron orbitals (where kinetic correlation is neglected) we obtain an exact (albeit impractical) expression for the noninteracting kinetic energy as the sum of the classical kinetic energy and the Weizsacker term. The classical kinetic energy is seen to be explicitly dependent on the electron phase and this has implications for the development of accurate orbital-free kinetic-energy functionals. Also, there is a direct connection between the classical kinetic energy and the angular momentum and, across a row of the periodic table, the classical kinetic energy component of the noninteracting kinetic energy generally increases as Z increases., Comment: 10 pages, 1 figure. To appear in Theor Chem Acc

Published
2006
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8. Flow boundary conditions for chain-end adsorbing polymer blends

Author

Zhou, X., Andrienko, D., Site, L. Delle, and Kremer, K.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Using the phenol-terminated polycarbonate blend as an example, we demonstrate that the hydrodynamic boundary conditions for a flow of an adsorbing polymer melt are extremely sensitive to the structure of the epitaxial layer. Under shear, the adsorbed parts (chain ends) of the polymer melt move along the equipotential lines of the surface potential whereas the adsorbed additives serve as the surface defects. In response to the increase of the number of the adsorbed additives the surface layer becomes thinner and solidifies. This results in a gradual transition from the slip to the no-slip boundary condition for the melt flow, with a non-monotonic dependence of the slip length on the surface concentration of the adsorbed ends.

Published
2005
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9. On the upper bound of the electronic kinetic energy in terms of density functionals

Author

Site, L. Delle

Subjects
Quantum Physics
Abstract

We propose a simple density functional expression for the upper bound of the kinetic energy for electronic systems. Such a functional is valid in the limit of slowly varying density, its validity outside this regime is discussed by making a comparison with upper bounds obtained in previous work. The advantages of the functional proposed for applications to realistic systems is briefly discussed., Comment: 10 pages, no figures

Published
2005
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10. Dynamic surface decoupling in a sheared polymer melt

Author

Zhou, X., Andrienko, D., Site, L. Delle, and Kremer, K.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

We propose that several mechanisms contribute to friction in a polymer melt adsorbed at a structured surface. The first one is the well known disentanglement of bulk polymer chains from the surface layer. However, if the surface is ideal at the atomic scale, the adsorbed parts of polymer chains can move along the equipotential lines of the surface potential. This gives rise to a strong slippage of the melt. For high shear rates chains partially desorb. However, the friction force on adsorbed chains increases, resulting in quasi-stick boundary conditions. We propose that the adsorbed layers can be efficiently used to adjust the friction force between the polymer melt and the surface.

Published
2005
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11. A procedure for calculating the many-particle Bohm quantum potential

Author

Site, L. Delle

Subjects
Quantum Physics
Abstract

In a recent work, M.Kohout (M.Kohout, Int.J.Quant.Chem. 87, 12 2002) raised the important question of how to make a correct use of Bohm's approach for defining a quantum potential. In this work, by taking into account Kohout's results, we propose a general self-consistent iterative procedure for solving this problem.

Published
2004
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12. Thomas-Fermi generalized approach for studying systems under pressure

Author

Cappelluti, E. and Site, L. Delle

Subjects
Condensed Matter - Statistical Mechanics
Abstract

In a previous work one of the authors proposed a simple model for studying systems under pressure based on the Thomas-Fermi (TF) model of single atom. In this work we intend to extend the previous work to more general Thomas-Fermi models where electronic exchange and correlation are introduced. To do so, we first study numerically the equation obtained by H.W.Lewis (TFDL) which introduces the effects of exchange and correlation into the original TF equation; next the procedure followed in the previous work is extended to the new approach and a specific example is illustrated. Although one could expect that no big differences were produced by the generalized TF model, we show the qualitative as well as quantitative equivalence with detailed numerical results. These results support the robustness of our conclusions with regards to the model proposed in the previous work and give the character of universality (i.e. to pass from one atom to another, the quantities calculated must be simply scaled by a numerical factor) to the properties of compressed systems shown in this work., Comment: 16 pages and 5 figures

Published
2004
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13. Equation of state of compressed matter: A simple statistical model

Author

Site, L. Delle

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We propose a simple approach for studying systems of compressed matter based on the Thomas-Fermi statistical model of single atom. The central point of our work is the development of the concept of ``statistical ionization'' by compression; in simple terms, we calculate the fraction of electrons within the atom whose positive energy, due to the compression, exceeds the negative binding energy electron-nucleus. Next we extend this concept from a single atom to macroscopic systems and write the corresponding equation of state. Positive aspects as well as limitations of the model are illustrated and discussed through all the paper., Comment: The last section of the manuscript contains a correction published later as ERRATA

Published
2004

14. Bader's interatomic surface and Bohmian mechanics

Author

Site, L. Delle

Subjects
Condensed Matter
Abstract

A Thomas-Fermi statistical analysis of Bader's interatomic surface developed in a previous work (L.Delle Site, Phys.Lett.A 286 61-64 (2001)) is here extended by considering exchange effects and electron density's inhomogeneity at basic level via Thomas-Fermi-Dirac-Weizsacker model. The results obtained show interesting connections with bohmian mechanics and lead to a statistical interpretation of the chemical properties of condensed systems at atomistic level., Comment: 8 pages, no figures

Published
2002
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15. Polymers near Metal Surfaces: Selective Adsorption and Global Conformations

Author

Site, L. Delle, Abrams, C. F., Alavi, A., and Kremer, K.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Soft Condensed Matter
Abstract

We study the properties of a polycarbonate melt near a nickel surface as a model system for the interaction of polymers with metal surfaces by employing a multiscale modeling approach. For bulk properties a suitably coarse grained bead spring model is simulated by molecular dynamics (MD) methods with model parameters directly derived from quantum chemical calculations. The surface interactions are parameterized and incorporated by extensive quantum mechanical density functional calculations using the Car-Parrinello method. We find strong chemisorption of chain ends, resulting in significant modifications of the melt composition when compared to an inert wall., Comment: 8 pages, 3 figures (2 color), 1 table

Published
2002
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31. A partial differential equation which describes an interatomic surface.

Author

SITE, L. DELLE

Subjects
*PARTIAL differential equations, *BESSEL functions, *MATHEMATICS, *MATHEMATICAL analysis, *LINEAR algebra
Abstract

In this work we present a first‐order partial differential equation which defines the topology of single ‘atomic entities’ in multiatomic systems. Such an equation, obtained by R. F. W. Bader, is here analysed and discussed from a general mathematical point of view; a method is then proposed for defining the initial or boundary condition. With this contribution we would like to promote and stimulate a more detailed analysis which goes beyond practical purposes and basic mathematical analysis in order to have a deeper understanding of the theory behind the equation and its consequences for practical applications. [ABSTRACT FROM PUBLISHER]

Published
2002
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33. On the Relevance of the Wavefunction's Phase Factor for Understanding Topological Properties of Atoms and Molecules in Condensed Phases: A Simple Example.

Author

Site, L. Delle

Subjects
*CONDENSED matter, *WAVE functions, *ATOMS, *MOLECULES
Abstract

In preceding work we proposed a criterion for defining atoms in molecules and in condensed phases based on the determination of the zero flux surface of the quantum current vector which holds the zero flux condition at every point. Here such a surface is calculated analytically in the simple case of a general hydrogen-like wavefunction with a non-constant phase factor. This simple example is then used as a basis to build an easy picture of the basic topological properties of atoms (or molecules) in multiatomic systems; these properties are particularly relevant for a molecular modeling procedure and a subsequent implementation in a simulation scheme. The main goal of this work is to underline with a simple example the importance of the wavefunction's phase factor in defining atoms or molecules in condensed systems (as it has been emphasized in our previous work); this point is important since a largely used theory (for defining atoms and molecules in condensed phases) such as the Bader's theory of atoms in molecules systematically neglects the properties of the wavefunction's phase factor. [ABSTRACT FROM AUTHOR]

Published
2001
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34. The electrostatic properties of water molecules in condensed phases: an ab initio study.

Author

Site, L. Delle, Alavi, A., and Lynden-Bell, R. M.

Subjects
*WATER, *MOLECULAR dynamics, *ELECTROSTATICS, *ELECTRON distribution
Abstract

Ab initio calculations are reported for water molecules in several condensed phases, looking particularly at the electrostatic properties of individual molecules. The approach is based on the flux of the electron density gradient to identify the electron distribution of individual molecules. Molecular dipole and quadrupole moments are calculated for molecules in a variety of environments, using configurations generated from classical and ab initio molecular dynamics simulations at 300 K. These make it possible to characterize differences between classical models and ab initio calculations with both fixed and varying molecular geometry. Our main result is an estimate of the average dipole and quadrupole moments for the water molecule in liquid and solid phases. [ABSTRACT FROM AUTHOR]

Published
1999
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35. Bisphenol A Polycarbonate:  Entanglement Analysis from Coarse-Grained MD Simulations

Author

Leon, S., Vegt, N. van der, Site, L. Delle, and Kremer, K.

Abstract

Simulation data are presented for a coarse-grained model of polycarbonate (BPA-PC), which allow for a detailed comparison of different ways to study the chain dynamics and predict the entanglement molecular weight. Most of the standard experimental quantities are determined for the very same set of systems and thus provide an opportunity for a detailed comparison of data far beyond typical experiments or simulations. By employing a suitably coarse-grained model, which still contains the essentials of the BPA-PC structure, simulation times compared to atomistic simulations could be extended by several orders of magnitude, reaching well into the characteristic experimental regime. We find that a recently developed topological entanglement analysis compares well with a direct determination of the modulus from simulations as with experiments on well-characterized samples. This confirms the extraordinarily small value of the entanglement molecular weight on Me between 1200 and 1400 corresponding to Ne close to 5.

Published
2005

39. The structure and spectroscopy of monolayers of water on MgO: An ab initio study.

Author

Delle Site, L., Site, L. Delle, Alavi, A., Lynden-Bell, R. M., and Lynden-Bell, R.M.

Subjects
*WATER, *MAGNESIUM compounds, *CHEMICAL structure
Abstract

The structure and energetics of a monolayer of water on a perfect MgO substrate is investigated by ab initio calculations. Several minima in the potential energy surface were found including both physisorbed and chemisorbed states in which one third of the water molecules were dissociated. In the more stable of the physisorbed states, the water molecules were not all parallel to the surface, but some showed hydrogen bonding with surface oxygen ions. Even in the physisorbed state, the geometry of these surface H-bonded water molecules were distorted relative to the bulk. One of the stable chemisorbed states was the same as that found in earlier work by Giordano et al. [Phys. Rev. Lett. 81, 1271 (1998)]. Two more stable chemisorbed structures were found in which strong hydrogen bonds to the hydroxide ions in the water layer were formed. The existence of different minima appears to be the result of a subtle interplay between hydrogen bonding between adsorbed species and with the surface oxide ions. Harmonic vibrational frequencies were determined for both a chemisorbed and a physisorbed states and spectroscopic features which should discriminate between chemisorbed and physisorbed states are identified. © 2000 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published
2000
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41. Simulation of macromolecular liquids with the adaptive resolution molecular dynamics technique.

Author

Peters, J. H., Klein, R., and Site, L. Delle

Subjects
*ALKANES, *MACROMOLECULES, *BIOPHYSICS, *MOLECULAR dynamics, *PROTOTYPES
Abstract

We extend the application of the adaptive resolution technique (AdResS) to liquid systems composed of alkane chains of different lengths. The aim of the study is to develop and test the modifications of AdResS required in order to handle the change of representation of large molecules. The robustness of the approach is shown by calculating several relevant structural properties and comparing them with the results of full atomistic simulations. The extended scheme represents a robust prototype for the simulation of macromolecular systems of interest in several fields, from material science to biophysics. [ABSTRACT FROM AUTHOR]

Published
2016
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42. Adaptive resolution molecular dynamics simulation through coupling to an internal particle reservoir.

Author

Fritsch, S., Poblete, S., Junghans, C., Ciccotti, G., Site, L. Delle, and Kremer, K.

Subjects
*MOLECULAR dynamics, *OPTICAL resolution, *GENERALIZATION, *ADAPTIVE optics, *COUPLING reactions (Chemistry), *ANALYTICAL mechanics
Abstract

For simulation studies of (macro) molecular liquids it would be of significant interest to be able to adjust or increase the level of resolution within one region of space, while allowing for the free exchange of molecules between open regions of different resolution or representation. We generalize the adaptive resolution idea and suggest an interpretation in terms of an effective generalized grand canonical approach. The method is applied to liquid water at ambient conditions. [ABSTRACT FROM AUTHOR]

Published
2012
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