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SIAMAM
2008

Stability of Solitary Waves in a Semiconductor Drift-Diffusion Model

14 years 11 days ago
Stability of Solitary Waves in a Semiconductor Drift-Diffusion Model
We consider a macroscopic (drift-diffusion) model describing a simple microwave generator, consisting of a special type of semiconductor material that, when biased above a certain threshold voltage, generates charge waves. These waves correspond to travelling wave solutions of the model equation which, however, turn out to be unstable in a standard formulation of the travelling wave problem. Here a different formulation of this problem is considered, where an external voltage condition is applied in the form of an integral constraint. Global existence of this novel Cauchy problem is proven and the results of numerical experiments are presented, which suggest the stability of solitary waves. In addition, a small amplitude limit is considered, for which linearized orbital stability of solitary waves can be proven. Key words. Gunn effect, drift-diffusion equation, solitary waves, global constraint AMS subject classifications. 82D37, 35K55, 35B40 DOI. 10.1137/070690766
C. M. Cuesta, C. Schmeiser
Added 14 Dec 2010
Updated 14 Dec 2010
Type Journal
Year 2008
Where SIAMAM
Authors C. M. Cuesta, C. Schmeiser
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