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Force field development with GOMC, a fast new Monte Carlo molecular simulation codeMick, Jason Richard 24 May 2016 (has links)
<p> In this work GOMC (GPU Optimized Monte Carlo) a new fast, flexible, and free molecular Monte Carlo code for the simulation atomistic chemical systems is presented. The results of a large Lennard-Jonesium simulation in the Gibbs ensemble is presented. Force fields developed using the code are also presented. To fit the models a quantitative fitting process is outlined using a scoring function and heat maps. The presented <i>n</i>-6 force fields include force fields for noble gases and branched alkanes. These force fields are shown to be the most accurate LJ or n-6 force fields to date for these compounds, capable of reproducing pure fluid behavior and binary mixture behavior to a high degree of accuracy.</p>
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UV laser multiphoton dissociation studies of H2O, NO2 and H2O2McKendrick, Colin Bruce January 1986 (has links)
No description available.
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Kinetic and spectroscopic studies of ion-pair states of iodine monochlorideKerr, Elinor A. January 1989 (has links)
No description available.
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Electronic and vibrational excitation in atom/molecule collisionsCampbell, Eleanor Elizabeth Bryce January 1986 (has links)
No description available.
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Aspects of parton models of deep inelastic scatteringDenny, Mark January 1981 (has links)
No description available.
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Experimental and theoretical studies in reactive molecular scatteringFernie, Douglas Petrie January 1980 (has links)
No description available.
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Spectroscopic and kinetic studies of highly excited diatomic speciesGilbert, Gary January 1986 (has links)
No description available.
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Laser multiphoton ionization spectroscopy and analysis of the xylene isomersBlease, Trevor Graham January 1985 (has links)
No description available.
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Time resolved absorption and fluorescence studies of atomic and molecular reactions involving Group VI elementsAddison, Michael Crombie January 1980 (has links)
No description available.
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A comparative analysis of electron correlation in atomic Be and a momentum space investigation of LiHMobbs, Richard John January 1985 (has links)
In Part I, the electron correlation problem is briefly reviewed and some approaches to its solution are discussed. In Part II, a partitioning technique used previously to examine correlation trends in individual electronic shells for a series of four-electron ions has been extended and applied to a detailed comparison of four well-correlated wavefunctions for the Be atom. The present analysis of a correlated two-particle density, generalized for any N-electron system, retained all contributions from products of all terms in the wavefunction up to and including the pair-correlation effects. For each correlated description of Be, Coulomb holes and shifts have been evaluated and compared for the K(1S), L(1S), KL(1s) and KL(3S) shells. The inverted nature of the intershell holes, relative to the intrashell effects, has been examined and rationalized in terms of the 2s-2p near-degeneracy which exists in Be. The total Coulomb holes for the two energetically best wavefunctions showed a previously unseen structure which was directly attributable to the intershells. The calculation of partial Coulomb holes and shifts, Δg(r12,r1,)vs.r12 & Δg(p12,P1)vs.P12, allowed us to examine changes in the components of correlation as the position r1 or the momentum p1 of a test electron was varied. Selected one- and two-particle radial and momentum expectation values are also reported along with various radial and angular correlation coefficients. In Part III the partitioning technique, discussed in Part II, has been applied to a momentum space study of electron correlation in a molecular system. The correlation effects embedded in a CI wavefunction for LiH has been examined in terms of the intra- and intershell Coulomb shifts and several one- and two-particle expectation values. Finally, in Part IV we present an overview of correlation coefficients as used, quite extensively, in the discussion of electron correlation. We have examined their construction and have reviewed their application towards this subject.
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