John W. Hanneken scite author profile

The time fractional Schrodinger equation (TFSE) for a nonrelativistic particle is derived on the basis of the Feynman path integral method by extending it initially to the case of a "free particle" obeying fractional dynamics, obtained by replacing the integer order derivatives with respect to time by those of fractional order. The equations of motion contain quantities which have "fractional" dimensions, chosen such that the "energy" has the correct dimension [ 2 / 2 ]. The action is defined as a fractional time integral of the Lagrangian, and a "fractional Planck constant" is introduced. The TFSE corresponds to a "subdiffusion" equation with an imaginary fractional diffusion constant and reproduces the regular Schrodinger equation in the limit of integer order. The present work corrects a number of errors in Naber's work. The correct continuity equation for the probability density is derived and a Green function solution for the case of a "free particle" is obtained. The total probability for a "free" particle is shown to go to zero in the limit of infinite time, in contrast with Naber's result of a total probability greater than unity. A generalization to the case of a particle moving in a potential is also given.

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Response characteristics of a fractional oscillator

Achar¹,

Hanneken²,

Clarke³

2002

Physica A: Statistical Mechanics and its Applications

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Fractional radial diffusion in a cylinder

Achar

Hanneken

2004

Journal of Molecular Liquids

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Damping characteristics of a fractional oscillator

Achar

Hanneken

Clarke

2004

Physica A: Statistical Mechanics and its Applications

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John W. Hanneken

Dynamics of the fractional oscillator

Time Fractional Schrodinger Equation Revisited

Response characteristics of a fractional oscillator

Fractional radial diffusion in a cylinder

Damping characteristics of a fractional oscillator

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