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1

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Reduced equations of motion for molecule–surface scattering (1988)

Diestler, D. J. ; Riley, M. E.

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

The Journal of Chemical Physics 89 (1988), S. 4137-4144

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: Novel reduced equations of motion for an admolecule scattering from a solid surface are proposed. The equations, derived under the assumption that the collisional force varies slowly with respect to typical periods of vibration of the solid atoms, can be cast as a set of coupled vector equations with dyadic friction coefficients that depend upon the instantaneous configuration of the system. In essence, the reduced equations describe the admolecule moving in the field of the instantly readjusting lattice. The reduced equations are applied to an idealized collision system (an adatom interacting via the Morse potential with a single atom of the simple-cubic Rosenstock–Newell lattice at T=0 K) for which numerically exact energy accommodation coefficients are available. The approximation is quite reliable over a reasonable range of system parameters, including those characteristic of realistic systems.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.454848

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2

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Reply to: "Comment on ‘A critique of the Brownian approximation to the generalized Langevin equation in lattice dynamics' '' (1987)

Riley, M. E. ; Diestler, D. J.

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

The Journal of Chemical Physics 86 (1987), S. 2447-2448

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: The comments of P. Mark Rodger ( ref.3) on the authors paper (ref.1) are answered. It is contended that the comments address a more general phenomenon than was analyzed in the authors article. (AIP)

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.452097

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3

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Dynamics of proton translocation in the primary process of vision (1988)

Riveros, Oscar J. ; Diestler, D. J.

s.l. : American Chemical Society

Journal of the American Chemical Society 110 (1988), S. 7206-7208

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ISSN: 1520-5126

Source: ACS Legacy Archives

Topics: Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/ja00229a042

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4

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Fluids in micropores. II. Self-diffusion in a simple classical fluid in a slit pore (1988)

Schoen, M. ; Cushman, J. H. ; Diestler, D. J. ; [et al.]

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

The Journal of Chemical Physics 88 (1988), S. 1394-1406

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: Self-diffusion coefficients D are computed for a model slit pore consisting of a rare-gas fluid confined between two parallel face-centered cubic (100) planes (walls) of rigidly fixed rare-gas atoms. By means of an optimally vectorized molecular-dynamics program for the CYBER 205, the dependence of D on the thermodynamic state (specified by the chemical potential μ, temperature T, and the pore width h) of the pore fluid has been explored. Diffusion is governed by Fick's law, even in pores as narrow as 2 or 3 atomic diameters. The diffusion coefficient oscillates as a function of h with fixed μ and T, vanishing at critical values of h, where fluid–solid phase transitions occur. A shift of the pore walls relative to one another in directions parallel with the walls can radically alter the structure of the pore fluid and consequently the magnitude of D. Since the pore fluid forms distinct layers parallel to the walls, a local diffusion coefficient D(i)(parallel) associated with a given layer i can be defined. D(i)(parallel) is least for the contact layer, even for pores as wide as 30 atomic diameters (∼100 A(ring)). Moreover, D(i)(parallel) increases with increasing distance of the fluid layer from the wall and, for pore widths between 16 and 30 atomic diameters, D(i)(parallel) is larger in the center of the pore than in the bulk fluid that is in equilibrium with the pore fluid. The opposite behavior is observed in corresponding smooth-wall pores, in which the discrete fluid–wall interactions have been averaged by smearing the wall atoms over the plane of the wall. The temperature dependence of D for fixed h is determined and the nature of melting of a pore solid is examined. It is found that the solid tends to melt first in the middle of the pore. All of the various results are related to the structural properties of the pore fluid, as manifested by the local density and pair correlation functions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.454211

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5

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Fluids in micropores. I. Structure of a simple classical fluid in a slit-pore (1987)

Schoen, M. ; Diestler, D. J. ; Cushman, J. H.

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

The Journal of Chemical Physics 87 (1987), S. 5464-5476

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: Equilbrium properties of a rare-gas fluid contained between two parallel fcc(100) planes of rigidly fixed rare-gas atoms were computed by means of the grand-canonical ensemble Monte Carlo method. The singlet distribution function ρ(1), and the pair-correlation function g(2) in planes parallel to the solid layers, indicate that the structure of the pore fluid depends strongly on the distance h between the solid layers. As the separation increases from less than two atomic diameters, successive layers of fluid appear. The transitions between one and two layers and three and four layers are especially abrupt and are accompanied by changes in the character of g(2) from dense fluid-like to solid-like. Long-range, in-plane order in the fluid layers diminishes with increasing h, but is still evident in the contact layer (i.e., that nearest the solid layer) at h=16.5 atomic diameters, the largest separation considered. The structure of the contact layer reflects the solid-layer structure and differs significantly from the adjacent inner fluid layers, whose g(2) resembles that of the corresponding bulk fluid. Decreasing the density of atoms in the solid layers blunts the peaks in ρ(1) and g(2), although even for the least dense layer considered the contact layers of fluid evince long-range, in-plane order. Replacing the discrete pairwise fluid–solid interactions with the mean field resulting from smearing the solid atoms over the plane of the solid layer destroys the "phase transitions'' and the associated long-range, in-plane order.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.453665

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6

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A critique of the Brownian approximation to the generalized Langevin equation in lattice dynamics (1985)

Diestler, D. J. ; Riley, M. E.

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

The Journal of Chemical Physics 83 (1985), S. 3584-3589

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: We consider the classical motion of a harmonic lattice in which only those atoms in a certain subset of the lattice (primary zone) may interact with an external force. The formally exact generalized Langevin equation (GLE) for the primary zone is an appropriate description of the dynamics. We examine a previously proposed Brownian, or frictional damping, approximation that reduces the GLE to a set of coupled ordinary Langevin equations for the primary atoms. It is shown that the solution of these equations can contain undamped motion if there is more than one atom in the primary zone. Such motion is explicitly demonstrated for a model that has been used to describe energy transfer in atom–surface collisions. The inability of the standard Brownian approximation to yield an acceptable, physically meaningful result for primary zones comprising more than one atom suggests that the Brownian approximation may introduce other spurious dynamical effects. Further work on damping of correlated motion in lattices is needed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.449164

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7

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Hemiquantal mechanics. I. Vibrational predissociation of van der Waals molecules (1986)

Halcomb, Lawrence L. ; Diestler, D. J.

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

The Journal of Chemical Physics 84 (1986), S. 3130-3137

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: The "hemiquantal'' equations (HQE), which pertain to a system consisting of a quantally-behaving ("light'') subsystem coupled to a classically-behaving ("heavy'') one, result from a partial classical limit of Heisenberg's equations of motion. In effect, all heavy particles are required to follow precisely their classical trajectories. The HQE are applied to vibrational predissociation in a collinear model of the van der Waals molecule He ⋅ ⋅ ⋅I2(B). Here, the vibration of I2 is the classical subsystem and the motion of He relative to the center of mass of I2 is the quantal subsystem. In this case, the HQE comprise a partial differential equation (Schrödinger's equation for the He motion) coupled to two ordinary differential equations (Hamilton's equations for the I2 vibration). These were solved numerically on the CYBER 205 supercomputer by means of an algorithm that uses a second-order predictor–corrector for Hamilton's equations and second-order time differencing for Schrödinger's equation. A scheme based on the fast Fourier transform was used to evaluate the spatial derivative of the wave function. The computed rates of vibrational predissociation are compared with the results of previous quasiclassical and fully quantal calculations and with experimental results.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.450294

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8

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Epitaxy in simple classical fluids in micropores and near-solid surfaces (1987)

Rhykerd, C. L. ; Schoen, M. ; Diestler, D. J. ; [et al.]

[s.l.] : Nature Publishing Group

Nature 330 (1987), S. 461-463

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] In our model each wall consists of a square 'unit cell' of the (100) plane of a face-centred-cubic (f.c.c.) lattice (Fig. 1). One wall lies in the z = 0 plane and the other in the z = h plane. The walls are positioned in the x- and ^-direction so that they are either adjacent (out of registry, as ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/330461a0

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