Space-frequency adaptive approximation for quantum hydrodynamic models: Transport Theory and Statistical Physics: Vol 29, No 3-5

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Abstract

We introduce two space-frequency adaptive strategies for the numerical approximation of the solutions of quantum hydrodynamic models for semiconductors, based respectively on wavelets and wavelet packets. The two strategies are compared on a test case, and wavelet packets perform better in approximating with fewer degrees of freedom the high frequency dispersive oscillations of the solution.

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Space-frequency adaptive approximation for quantum hydrodynamic models

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Space-frequency adaptive approximation for quantum hydrodynamic models

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