Search Results - "Mathar, Rj"

MIDI - The 10 mu m instrument on the VLTI by Leinert, C, Graser, U, Przygodda, F, Waters, LBFM, Perrin, G, Jaffe, W, Lopez, B, Bakker, E J, Boehm, A, Chesneau, O, Cotton, W D, Damstra, S, de Jong, J, Glazenborg-Kluttig, A W

“…After more than five years of preparation, the mid-infrared interferometric instrument MIDI has been transported to Paranal where it will undergo testing and…”
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Mutual conversion of three flavors of Gaussian type orbitals by Mathar, Richard J.

“…Mutual expansion formulas are developed for three types of Gaussian orbitals: Hermite Gaussians, Cartesian Gaussians, and spherical Gaussians. Overlap, kinetic…”
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Numerical Representations of the Incomplete Gamma Function of Complex-Valued Argument by Mathar, Richard J.

“…Various approaches to the numerical representation of the incomplete Gamma function γ(m+1/2,z) for complex arguments z and non-negative small integer indices m…”
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The Brandt-Kitagawa heavy ion model: Embedding in the homogeneous electron gas by Mathar, Richard J.

“…The ion model by Brandt and Kitagawa [Phys. Rev. B 25 (1982) 5631] has played a major role in the development of the effective charge theory for the electronic…”
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Answer to Question #52. Group velocity and energy propagation by Mathar, Richard J.

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Electronic stopping of protons for lithium in the dielectric formulation obtained from first-principles calculations by Mathar, Richard J., Sabin, John R., Trickey, S.B.

“…We calculate the wave-vector and frequency-dependent dielectric matrix of bulk crystals by use of first-principles, all-electron Kohn–Sham states in the…”
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Answer to Question #41. Polynomial for the finite Ising chain by Mathar, Richard J.

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Protons passing through the homogeneous electron gas: Polarization currents, velocities of excited electrons and deposited energy density by Mathar, Richard J.

“…The polarization currents and the mean velocities of the electrons that are excited by a moving bare ion in the homogeneous electron gas-represented by the…”
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MIDI - the 10 [mu]m instrument on the VLTI by Leinert, Ch, Graser, U, Przygodda, F, Waters, Lbfm, Perrin, G, Jaffe, W, Lopez, B, Bakker, Ej, Böhm, A, Chesneau, O, Cotton, Wd, Damstra, S, de Jong, J, Glazenborg-kluttig, Aw, Grimm, B, Hanenburg, H, Laun, W, Lenzen, R, Ligori, S, Mathar, Rj, Meisner, J, Morel, S, Morr, W, Neumann, U, Pel, J-w, Schuller, P, Rohloff, R-r, Stecklum, B, Storz, C, von der Lühe, O, Wagner, K

“…After more than five years of preparation, the mid-infrared interferometric instrument MIDI has been transported to Paranal where it will undergo testing and…”
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Electronic Stopping and Momentum Density of Diamond from First-Principles Treatment of the Microscopic Dielectric Function by Mathar, Richard J., Trickey, S.B., Sabin, John R.

“…We study the dielectric and energy loss properties of diamond via first-principles calculation of the (0,0)-element (‘head’ element) of the frequency and…”
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Influence of the first-order polarization on the stopping power for bare charges in the jellium model by Mathar, RJ

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Effective-charge theory for the electronic stopping of heavy ions in solids: Stripping criteria and target-electron models by Mathar, RJ, Posselt, M

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Electronic stopping of heavy ions in the Kaneko model by Mathar, RJ, Posselt, M

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