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Author: Kevin Bishop
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Free energy calculations are one of the most powerful tools within modern theoretical chemistry and are often used to make comparisons with experimental results. Existing free energy calculations are typically performed for classical molecular dynamics simulations but there are certain systems where nuclear quantum effects play an integral role. Specifically, systems with light atoms or low temperatures are the most influenced by such nuclear quantum effects and the development of Feynman path integrals [1] has been effective in accurately describing the quantum nature of these nuclei [2-8]. The primary objective of this thesis is the development of a pair of methodologies to calculate free energies utilizing path integral molecular dynamics to account for nuclear quantum effects. Prior to the development of these free energy methodologies, this thesis presents a communication interface between the OpenMM and MMTK software packages that has been previously published [9]. This interface allows for users of MMTK to take advantage of the performance of OpenMM without major modifications to existing simulation scripts. Notably, the serial OpenMM integrator is shown to provide a 3x performance gain in comparison to a standard MMTK simulation while the GPU implementations of OpenMM provide over a 400x performance gain for larger systems with periodic boundary conditions. The first path integral free energy methodology of this thesis combines the existing um- brella sampling technique [10,11] with path integral molecular dynamics. This methodology has been previously published and proposes that the umbrella sampling biasing potential only needs to be applied to a single path integral bead [12]. Furthermore, this proposed methodology is successfully benchmarked for a pair of Lennard-Jones dimer systems before being applied to the more difficult water dimer. The free energy profiles obtained from simulation are then used to calculate a free energy difference of -12.90 ± 0.05 kJ/mol for the MB-Pol potential in comparison to the experimental dissociation energy of -13.2 ± 0.12 kJ/mol [13]. The second path integral free energy methodology introduces a constraint within the path integral molecular dynamics simulations as opposed to an umbrella sampling restraint. Specifically, this methodology applies a constraint to an individual path integral bead in a manner that is similar to the concept of thermodynamic integration for classical simulations [14]. Formal estimators for the derivative of the free energy have been developed by Iouchtchenko et al. [15] and the results presented in this thesis analyze the effectiveness of these estimators for molecular dynamics simulations of Lennard-Jones and water dimers. Additionally, a new estimator is developed and the resulting free energy profiles are used to evaluate a free energy difference for the water dimer of -13.03 ± 0.14 kJ/mol, which is within the errors of the experimental dissociation energy [13]. Overall, this thesis provides a theoretical framework to study the free energy of weakly bound systems over a broad range of temperatures. It is important to note that these methodologies were insufficient below 25 K and it remains more practical to use reaction coordinates that are not distances at such temperatures. Nevertheless, the extension and application of these methodologies to more complicated systems remains an area of exciting development.
Author: Kevin Bishop
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Free energy calculations are one of the most powerful tools within modern theoretical chemistry and are often used to make comparisons with experimental results. Existing free energy calculations are typically performed for classical molecular dynamics simulations but there are certain systems where nuclear quantum effects play an integral role. Specifically, systems with light atoms or low temperatures are the most influenced by such nuclear quantum effects and the development of Feynman path integrals [1] has been effective in accurately describing the quantum nature of these nuclei [2-8]. The primary objective of this thesis is the development of a pair of methodologies to calculate free energies utilizing path integral molecular dynamics to account for nuclear quantum effects. Prior to the development of these free energy methodologies, this thesis presents a communication interface between the OpenMM and MMTK software packages that has been previously published [9]. This interface allows for users of MMTK to take advantage of the performance of OpenMM without major modifications to existing simulation scripts. Notably, the serial OpenMM integrator is shown to provide a 3x performance gain in comparison to a standard MMTK simulation while the GPU implementations of OpenMM provide over a 400x performance gain for larger systems with periodic boundary conditions. The first path integral free energy methodology of this thesis combines the existing um- brella sampling technique [10,11] with path integral molecular dynamics. This methodology has been previously published and proposes that the umbrella sampling biasing potential only needs to be applied to a single path integral bead [12]. Furthermore, this proposed methodology is successfully benchmarked for a pair of Lennard-Jones dimer systems before being applied to the more difficult water dimer. The free energy profiles obtained from simulation are then used to calculate a free energy difference of -12.90 ± 0.05 kJ/mol for the MB-Pol potential in comparison to the experimental dissociation energy of -13.2 ± 0.12 kJ/mol [13]. The second path integral free energy methodology introduces a constraint within the path integral molecular dynamics simulations as opposed to an umbrella sampling restraint. Specifically, this methodology applies a constraint to an individual path integral bead in a manner that is similar to the concept of thermodynamic integration for classical simulations [14]. Formal estimators for the derivative of the free energy have been developed by Iouchtchenko et al. [15] and the results presented in this thesis analyze the effectiveness of these estimators for molecular dynamics simulations of Lennard-Jones and water dimers. Additionally, a new estimator is developed and the resulting free energy profiles are used to evaluate a free energy difference for the water dimer of -13.03 ± 0.14 kJ/mol, which is within the errors of the experimental dissociation energy [13]. Overall, this thesis provides a theoretical framework to study the free energy of weakly bound systems over a broad range of temperatures. It is important to note that these methodologies were insufficient below 25 K and it remains more practical to use reaction coordinates that are not distances at such temperatures. Nevertheless, the extension and application of these methodologies to more complicated systems remains an area of exciting development.
Author: Christophe Chipot
Publisher: Springer Science & Business Media
ISBN: 3540384472
Category : Language Arts & Disciplines
Languages : en
Pages : 528
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Book Description
Free energy constitutes the most important thermodynamic quantity to understand how chemical species recognize each other, associate or react. Examples of problems in which knowledge of the underlying free energy behaviour is required, include conformational equilibria and molecular association, partitioning between immiscible liquids, receptor-drug interaction, protein-protein and protein-DNA association, and protein stability. This volume sets out to present a coherent and comprehensive account of the concepts that underlie different approaches devised for the determination of free energies. The reader will gain the necessary insight into the theoretical and computational foundations of the subject and will be presented with relevant applications from molecular-level modelling and simulations of chemical and biological systems. Both formally accurate and approximate methods are covered using both classical and quantum mechanical descriptions. A central theme of the book is that the wide variety of free energy calculation techniques available today can be understood as different implementations of a few basic principles. The book is aimed at a broad readership of graduate students and researchers having a background in chemistry, physics, engineering and physical biology.
Author: Xin-zheng Li
Publisher: World Scientific
ISBN: 9813230460
Category : Science
Languages : en
Pages : 280
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Book Description
This book provides a relatively complete introduction to the methods used in computational condensed matter. A wide range of electronic structure theories are introduced, including traditional quantum chemistry methods, density functional theory, many-body perturbation theory, and more. Molecular dynamics simulations are also discussed, with extensions to enhanced sampling and free-energy calculation techniques including umbrella sampling, meta-dynamics, integrated tempering sampling, etc. As a further extension beyond the standard Born-Oppenheimer molecular dynamics, some simulation techniques for the description of quantum nuclear effects are also covered, based on Feynman's path-integral representation of quantum mechanics. The book aims to help beginning graduate students to set up a framework of the concepts they should know before tackling the physical/chemical problems they will face in their research.
Author: Bruce J Berne
Publisher: World Scientific
ISBN: 9814496057
Category : Science
Languages : en
Pages : 881
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Book Description
The school held at Villa Marigola, Lerici, Italy, in July 1997 was very much an educational experiment aimed not just at teaching a new generation of students the latest developments in computer simulation methods and theory, but also at bringing together researchers from the condensed matter computer simulation community, the biophysical chemistry community and the quantum dynamics community to confront the shared problem: the development of methods to treat the dynamics of quantum condensed phase systems.This volume collects the lectures delivered there. Due to the focus of the school, the contributions divide along natural lines into two broad groups: (1) the most sophisticated forms of the art of computer simulation, including biased phase space sampling schemes, methods which address the multiplicity of time scales in condensed phase problems, and static equilibrium methods for treating quantum systems; (2) the contributions on quantum dynamics, including methods for mixing quantum and classical dynamics in condensed phase simulations and methods capable of treating all degrees of freedom quantum-mechanically.
Author: George J. Papadopoulos
Publisher: Springer Science & Business Media
ISBN: 1468491407
Category : Science
Languages : en
Pages : 516
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Book Description
The Advanced Study Institute on "Path Integrals and Their Applications in Quantum, Statistical, and Solid State Physics" was held at the University of Antwerpen (R.U.C.A.), July 17-30, 1977. The Institute was sponsored by NATO. Co-sponsors were: A.C.E.C. (Belgium), Agfa-Gevaert (Belgium), l'Air Li~uide BeIge (Belgium), Be1gonucleaire (Belgium), Bell Telephone Mfg. Co. (Belgium), Boelwerf (Belgium), Generale BankmaatschappiJ (Belgium), I.B.M. (Belgium), Kredietbank (Belgium), National Science Foundation (U.S.A.), Siemens (Belgium). A total of 100 lecturers and partici pants attended the Institute. The development of path (or functional) integrals in relation to problems of stochastic nature dates back to the early 20's. At that time, Wiener succeeded in obtaining the fundamental solution of the diffusion e~uation using Einstein's joint probability of finding a Brownian particle in a succession of space intervals during a corresponding succession of time intervals. Dirac in the early 30's sowed the seeds of the path integral formulation of ~uantum mecha nics. However, the major and decisive step in this direction was taken with Feynman's works in ~uantum and statistical physics, and quantum electrodynamicso The applications now extend to areas such as continuous mechanics, and recently functional integration methods have been employed by Edwards for the study of polymerized matter
Author: Mark Tuckerman
Publisher: OUP Oxford
ISBN: 0191523461
Category : Science
Languages : en
Pages : 719
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Book Description
Complex systems that bridge the traditional disciplines of physics, chemistry, biology, and materials science can be studied at an unprecedented level of detail using increasingly sophisticated theoretical methodology and high-speed computers. The aim of this book is to prepare burgeoning users and developers to become active participants in this exciting and rapidly advancing research area by uniting for the first time, in one monograph, the basic concepts of equilibrium and time-dependent statistical mechanics with the modern techniques used to solve the complex problems that arise in real-world applications. The book contains a detailed review of classical and quantum mechanics, in-depth discussions of the most commonly used ensembles simultaneously with modern computational techniques such as molecular dynamics and Monte Carlo, and important topics including free-energy calculations, linear-response theory, harmonic baths and the generalized Langevin equation, critical phenomena, and advanced conformational sampling methods. Burgeoning users and developers are thus provided firm grounding to become active participants in this exciting and rapidly advancing research area, while experienced practitioners will find the book to be a useful reference tool for the field.
Author: Jean Zinn-Justin
Publisher:
ISBN: 0198566751
Category : Mathematics
Languages : en
Pages : 336
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Book Description
Quantum field theory is hardly comprehensible without path integrals: the goal of this book is to introduce students to this topic within the context of ordinary quantum mechanics and non-relativistic many-body theory, before facing the problems associated with the more involved quantum field theory formalism.
Author: Mark E. Tuckerman
Publisher: Oxford University Press
ISBN: 0192559613
Category : Science
Languages : en
Pages : 881
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Book Description
Scientists are increasingly finding themselves engaged in research problems that cross the traditional disciplinary lines of physics, chemistry, biology, materials science, and engineering. Because of its broad scope, statistical mechanics is an essential tool for students and more experienced researchers planning to become active in such an interdisciplinary research environment. Powerful computational methods that are based in statistical mechanics allow complex systems to be studied at an unprecedented level of detail. This book synthesizes the underlying theory of statistical mechanics with the computational techniques and algorithms used to solve real-world problems and provides readers with a solid foundation in topics that reflect the modern landscape of statistical mechanics. Topics covered include detailed reviews of classical and quantum mechanics, in-depth discussions of the equilibrium ensembles and the use of molecular dynamics and Monte Carlo to sample classical and quantum ensemble distributions, Feynman path integrals, classical and quantum linear-response theory, nonequilibrium molecular dynamics, the Langevin and generalized Langevin equations, critical phenomena, techniques for free energy calculations, machine learning models, and the use of these models in statistical mechanics applications. The book is structured such that the theoretical underpinnings of each topic are covered side by side with computational methods used for practical implementation of the theoretical concepts.
Author: Lichang Wang
Publisher: BoD – Books on Demand
ISBN: 9535104438
Category : Mathematics
Languages : en
Pages : 440
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Book Description
Molecular Dynamics is a two-volume compendium of the ever-growing applications of molecular dynamics simulations to solve a wider range of scientific and engineering challenges. The contents illustrate the rapid progress on molecular dynamics simulations in many fields of science and technology, such as nanotechnology, energy research, and biology, due to the advances of new dynamics theories and the extraordinary power of today's computers. This first book begins with a general description of underlying theories of molecular dynamics simulations and provides extensive coverage of molecular dynamics simulations in nanotechnology and energy. Coverage of this book includes: Recent advances of molecular dynamics theory Formation and evolution of nanoparticles of up to 106 atoms Diffusion and dissociation of gas and liquid molecules on silicon, metal, or metal organic frameworks Conductivity of ionic species in solid oxides Ion solvation in liquid mixtures Nuclear structures
Author: Dominik Marx
Publisher: Cambridge University Press
ISBN: 1139477196
Category : Science
Languages : en
Pages : 503
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Book Description
Ab initio molecular dynamics revolutionized the field of realistic computer simulation of complex molecular systems and processes, including chemical reactions, by unifying molecular dynamics and electronic structure theory. This book provides the first coherent presentation of this rapidly growing field, covering a vast range of methods and their applications, from basic theory to advanced methods. This fascinating text for graduate students and researchers contains systematic derivations of various ab initio molecular dynamics techniques to enable readers to understand and assess the merits and drawbacks of commonly used methods. It also discusses the special features of the widely used Car–Parrinello approach, correcting various misconceptions currently found in research literature. The book contains pseudo-code and program layout for typical plane wave electronic structure codes, allowing newcomers to the field to understand commonly used program packages and enabling developers to improve and add new features in their code.
