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1

Electronic Resource

Discrete-continuum hybrid model for dynamics with applications: Desorption of adsorbates and relaxation of lattice inclusions (1990)

Thacher, Thomas ; Rabitz, Herschel A. ; Askar, Attila

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 93 (1990), S. 4673-4686

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: The paper presents and extends an earlier model for the relaxation dynamics within solids and desorption of adsorbates on surfaces. The model retains the discrete nature of the adsorbates while adopting a continuum representation for the solid. Extensive one-dimensional model calculations are carried out along with sample calculations in the two-dimensional case. Specifically, in the one-dimensional case, the formulation is for a diatom with harmonic intramolecular bond and a Morse potential between the diatom and the remaining solid as well as an atomic inclusion in a two-dimensional bulk solid. The excitation mechanisms are initial disturbances that take the system away from its equilibrium configuration and acoustic pulses incident on the molecule. An extensive parametric study is carried out by varying the width, amplitude, and frequency content of the pulse along with the strength of the Morse bond. These calculations permit an understanding of the roles of the various parameters in determining the relaxation rate associated with energy transfer and desorption processes for the case of the diatom bound to the solid surface as well as an atom as a guest in the solid. The observed physical phenomena span the linear to the highly nonlinear regime.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.458707

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2

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A hybrid approach to modeling the dynamics of macromolecules (1986)

Thacher, Thomas ; Ganesan, Shridar ; Askar, Attila ; [et al.]

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 85 (1986), S. 3655-3673

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: A new approach to modeling macromolecular systems is presented which can be used to study both the low frequency collective motion of the entire macromolecule and the high frequency motion of local regions within the molecule. The approach combines the classical atomistic model of the molecule with a continuum model to form an overall classical hybird model. This hybrid model is developed by using a long wavelength limit to the discrete equations of motion to obtain a field of local elastic modulus tensors which depend on the intramolecular potential and molecular configuration. These tensors can then be used in a qualitative manner to correlate the elasticity of different regions in the macromolecule with the dynamics of the molecule as a whole. In addition, the tensors obey specific symmetry conditions which can be utilized to identify regions of the macromolecule that are displaced from equilibrium. The field of tensors can also be used in a quantitative manner to decrease the number of degrees of freedom for the macromolecule by the lumping of regions of uniform elasticity as dictated by the field. The symmetry properties may also be used to obtain equations of motion corresponding to an equilibrium configuration and an intramolecular potential which are consistent with each other. This latter result is important in the cases where the molecular configuration in the atomistic model does not properly correspond to the equilibrium configuration for the intramolecular potential. The applicability of the tensor as an analytic tool for investigating macromolecular systems is illustrated using several molecules and molecular analogs.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.450936

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3

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Subspace Method for Long Time Scale Molecular Dynamics (1995)

Askar, Attila ; Space, Brian ; Rabitz, Herschel

s.l. : American Chemical Society

The @journal of physical chemistry 〈Washington, DC〉 99 (1995), S. 7330-7338

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Source: ACS Legacy Archives

Topics: Chemistry and Pharmacology , Physics

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/j100019a017

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4

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Focused bulk ultrasonic waves generated by ring-shaped laser illumination and application to flaw detection (1996)

Wang, Xiao ; Littman, Michael G. ; McManus, John B. ; [et al.]

[S.l.] : American Institute of Physics (AIP)

Journal of Applied Physics 80 (1996), S. 4274-4281

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ISSN: 1089-7550

Source: AIP Digital Archive

Topics: Physics

Notes: Focused bulk ultrasonic waves have been generated in aluminum plates by surface irradiation with ring-shaped laser light. The waves are detected by a piezoelectric transducer. Compression and shear peak amplitudes drop quickly when the detector is moved away from the epicenter. This shows that strong focusing exists at the epicenter as the result of constructive interference of the waves generated by different parts of the ring. The focusing persists when the radius of the laser light is scanned over a large range, indicating that the elastic disturbance concentrates in depth along the ring's central axis. Numerical simulations are presented for comparison. The "pencil-like'' acoustic wave structure is used to observe a sample plate with an artificial flaw. Strong new features including compress-shear mode conversion at the site of the flaw are observed. These features are used to locate the flaw within the sample. © 1996 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.363387

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5

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Molecular dynamics with Langevin equation using local harmonics and Chandrasekhar's convolution (1993)

Askar, Attila ; Owens, Robert G. ; Rabitz, Herschel A.

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 99 (1993), S. 5316-5325

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: A numerical method for studying molecular systems subject to a random force field leading to a Gaussian velocity distribution and described by the Langevin equation is presented. Two basic elements constitute the formulation: local harmonic modes and Chandrasekhar's formula for the distribution function for a convolution involving a random function. First, by linearizing the governing Langevin equations locally and employing an orthogonal change of coordinates, an explicit solution for the displacement and velocity is constructed. Second, Chandrasekhar's formula is employed in deriving the probability distribution function of the displacements and the velocities coming from the random forces. The local mode analysis is essential for the use of the Chandrasekhar's formula, since we need the formal solution as a convolution of the random forces and the local Green's function. For an illustration of the method in a significant case representative of real problems, we study a one dimensional idealization of a long chain molecule possessing internal energy barriers and subjected to an applied tension. The results are compared with the predictions of a conventional approximate method where a finite number of random realizations are generated in each time step. This truncation constitutes an approximation to obtain the desired Gaussian probability distribution function for the velocities which is reached in the limit of an infinity of random realizations. The calculations show that the conventional approximations may be acceptable only for short times, small temperatures, and average values over very long times. In particular, these approximations fail to give accurate results for transient phenomena, show slow convergence with the increase in the number of random realizations, and predict large values for the variance even in the steady regime.The new proposed method on the other hand, (i) incorporates the mathematically and conceptually correct limit for the distribution function, (ii) is quite stable with respect to increases in the value of the time increment as well as in terms of fluctuations characterized by the variance, (iii) leads to considerable savings in computer time over the approximate method, and (iv) has the proper description during the transient regime, which is usually the most interesting phase of dynamical processes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.465975

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6

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Long time scale molecular dynamics subspace integration method applied to anharmonic crystals and glasses (1993)

Space, Brian ; Rabitz, Herschel ; Askar, Attila

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 99 (1993), S. 9070-9079

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: A subspace dynamics method is presented to model long time dynamical events. The method involves determining a set of vectors that span the subspace of the long time dynamics. Specifically, the vectors correspond to real and imaginary low frequency normal modes of the condensed phase system. Most importantly, the normal mode derived vectors are only used to define the subspace of low frequency motions, and the actual time dependent dynamics is fully anharmonic. The resultant projected set of Newton's equations is numerically solved for the subspace motions. Displacements along the coordinates outside the subspace are then constrained during the integration of the equations of motion in the reduced dimensional space. The method is different from traditional constraint methods in that it can systematically deduce and remove both local and collective high frequency motions of the condensed phase system with no a priori assumptions. The technique is well suited to removing large numbers of degrees of freedom, while only keeping the very low frequency global motions. The method is applied to highly anharmonic Lennard-Jones crystal and glass systems. Even in these systems with no intramolecular degrees of freedom or obvious separation of time scales, the subspace dynamics provides a speed up of approximately a factor of 5 over traditional molecular dynamics through use of a larger integration time step. In the cases illustrated here a single set of subspace vectors was adequate over the full time interval, although this is not expected to be true for all systems.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.465573

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7

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Convergence properties of a class of boundary element approximations to linear diffusion problems with localized nonlinear reactions (1990)

Peirce, Anthony P. ; Askar, Attila ; Rabitz, Herschel

New York, NY [u.a.] : Wiley-Blackwell

Numerical Methods for Partial Differential Equations 6 (1990), S. 75-108

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ISSN: 0749-159X

Keywords: Mathematics and Statistics ; Numerical Methods

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Mathematics

Notes: We consider a boundary element (BE) Algorithm for solving linear diffusion desorption problems with localized nonlinear reactions. The proposed BE algorithm provides an elegant representation of the effect of localized nonlinear reactions, which enables the effects of arbitrarily oriented defect structures to be incorporated into BE models without having to perform severe mesh deformations.We propose a one-step recursion procedure to advance the BE solution of linear diffusion localized nonlinear reaction problems and investigate its convergence properties. The separation of the linear and nonlinear effects by the boundary integral formulation enables us to consider the convergence properties of approximations to the linear terms and nonlinear terms of the boundary integral equation separately.For the linear terms we investigate how the degree of piecewise polynomial collocation in space and the size of the spatial mesh relative to the time step affects the accumulation of errors in the one-step recursion scheme. We develop a novel convergence analysis that combines asymptotic methods with Lax's Equivalence Theorem. We identify a dimensionless meshing parameter θ whose magnitudé governs the performance of the one-step BE schemes. In particular, we show that piecewise constant (PWC) and piecewise linear (PWL) BE schemes are conditionally convergent, have lower asymptotic bounds placed on the size of time steps, and which display excess numerical diffusion when small time steps are used. There is no asymptotic bound on how large the tie steps can be-this allows the solution to be advanced in fewer, larger time steps. The piecewise quadratic (PWQ) BE scheme is shown to be unconditionally convergent; there is no asymptotic restriction on the relative sizes of the time and spatial meshing and no numerical diffusion. We verify the theoretical convergence properties in numerical examples. This analysis provides useful information about the appropriate degree of spatial piecewise polynomial and the meshing strategy for a given problem.For the nonlinear terms we investigate the convergence of an explicit algorithm to advance the solution at an active site forward in time by means of Caratheodory iteration combined with piecewise linear interpolation. We consider a model problem comprising a singular nonlinear Volterra equation that represents the effect of the term in the BE formulation that is due to a single defect. We prove the convergence of the piecewise linear Caratheodory iteration algorithm to a solution of the model problem for as long as such a solution can be shown to exist. This analysis provides a theoretical justification for the use of piecewise linear Caratheodory iterates for advancing the effects of localized reactions.

Additional Material: 6 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/num.1690060106

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