Your search keyword '"Dissipation effects"' showing total 2 results

1. Magnetic field and dissipation effects on the charge polarization in quantum cellular automata.

Author

Rojas, F., Cota, E., and Ulloa, S.E.

Abstract

We study the dynamic evolution of the charge distribution (polarization) of a 2×2 quantum-dot cell with two electrons in the presence of a time-dependent driver cell and a magnetic field. We describe the effects of the magnetic flux on the response of the basic dot cell, for fixed, and linear switching of the driver polarization. In the static case, we find that the magnetic field has a strong localizing effect, similar to the effect of asymmetry. For fixed tunneling, the polarization of the target cell increases with magnetic field, going through a maximum at a particular value of the magnetic flux through the cell. In the dynamic case, a ringing effect and a decrease in the final polarization value of the target cell are obtained as the magnetic field increases. The effects of temperature and asymmetry on these results are also analyzed. [ABSTRACT FROM PUBLISHER]

Published

2004

2. An Enhanced Fourth-Order PDE Model Based on Laplacian and Gradient Operator.

Author

Zhang, Junhai, Li, Liangchao, and Yang, Jianyu

Abstract

An enhanced fourth-order PDE model is proposed in this paper. This model utilizes a parameter to control the image denoising process. The parameter consists of two parts, one is absolute value of the image's Laplacian, the other is the image's gradient magnitude. Experiment results demonstrate that this model can make a better trade-off between noise removal and edge preservation than others, and it can reduce the dissipation effects. [ABSTRACT FROM PUBLISHER]

Published

2012