Kyle Spyksma scite author profile

Kyle Spyksma

5Publications

85Citation Statements Received

0Citation Statements Given

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140

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Redeemer University College, McGill University

Publications

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Efficiency and accuracy of numerical solutions to the time-dependent Schrödinger equation

2011

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Recent significant improvements of the numerical solutions of the time-dependent Schrödinger equation beg the question as to whether these recent methods are comparable in efficacy (in terms of accuracy and computational time) to the current "method of choice," i.e., the Chebyshev expansion of the time-evolution operator and the fast-Fourier-transform method of determining the kinetic energy. In this paper we review the methods in question and, by studying the time development of a coherent wave packet in an oscillator well, we are able to assess the effectiveness of the various methods. It turns out that the new generalizations come close (to within an order of magnitude) to being able to generate solutions as precisely and efficiently as the Chebyshev-fast-Fourier-transform method. The strict unitarity of the generalized methods may be an advantage. We also show that the fast-Fourier-transform approach to calculating the kinetic energy can be replaced by straightforward numerical differentiation to obtain the same precision.

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Quantifying effects of hyperviscosity on isotropic turbulence

Spyksma

Magcalas

Campbell

2012

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Isotropic hyperviscous turbulence is modelled with a pseudospectral Navier-Stokes model and comparisons are made with regular-viscosity isotropic turbulence. Two proposed means of measuring the (hyperviscous) turbulent Reynolds number are presented and critiqued, leading to a proposal for a hyperviscous turbulent Reynolds number measured as a linear function of L/λ. An analysis of the statistics of velocity and velocity-derivative fields leads to comments on appropriate uses for hyperviscosity in theoretical and practical turbulence modelling and research.

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A Boussinesq moist turbulence model

Spyksma¹,

Bartello²,

Yau³

2006

Journal of Turbulence

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Analytic time-dependent solutions of the one-dimensional Schrödinger equation

Dijk

Toyama

Prins

et al. 2014

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We show that one can obtain analytic solutions of the time-dependent Schrödinger equation that are more complex than the well-known oscillating coherent wave packet. Such Hermite-Gaussian or initially square wave packets exist for a free particle or for one subject to the harmonic oscillator potential. In either case, the Hermite-Gaussian packets retain their nodal structure even after long times. There is a single class of exact solutions for the system with oscillator constant K > 0, K = 0, or K < 0, leading to wave functions for the harmonic oscillator, the free particle, and the inverted oscillator, respectively.

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Nonthreshold anomalous time advance in multichannel scattering

2008

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Kyle Spyksma

Efficiency and accuracy of numerical solutions to the time-dependent Schrödinger equation

Quantifying effects of hyperviscosity on isotropic turbulence

A Boussinesq moist turbulence model

Analytic time-dependent solutions of the one-dimensional Schrödinger equation

Nonthreshold anomalous time advance in multichannel scattering

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