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On the different physical roles of hysteresis and intrinsic oscillations in resonant tunneling structures (1996)

Woolard, D. L. ; Buot, F. A. ; Rhodes, D. L. ; [weitere]

[S.l.] : American Institute of Physics (AIP)

Journal of Applied Physics 79 (1996), S. 1515-1525

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ISSN: 1089-7550

Quelle: AIP Digital Archive

Thema: Physik

Notizen: Electronic sources based upon resonant tunneling diodes (RTDs) usually generate power by establishing limit cycles which exchange energy with storage elements in an external biasing circuit; hence, the output power in this type of implementation will always be limited by extrinsic effects. We verify the presence of multiple energy-storage mechanisms solely within the RTD and characterizes the interdependencies necessary to induce intrinsic oscillations observed in quantum mechanical simulations. Specifically, we show that a nonlinear "access'' resistance and quantum-well inductance is responsible for the hysteresis, "plateaulike'' behavior, and bistability associated with the intrinsic current–voltage (I–V) characteristic. Furthermore, a new circuit-level representation which accurately incorporates the nonlinear dependencies into these heretofore "linear'' equivalent-circuit elements is used to demonstrate the different roles, as well as the degree of cooperative interplay, of the intrinsic oscillations and hysteresis in determining the overall I–V characteristics of the RTD.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1063/1.360994

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Digitale Medien

Construction of higher-moment terms in the hydrodynamic electron-transport model (1993)

Woolard, D. L. ; Tian, H. ; Littlejohn, M. A. ; [weitere]

[S.l.] : American Institute of Physics (AIP)

Journal of Applied Physics 74 (1993), S. 6197-6207

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ISSN: 1089-7550

Quelle: AIP Digital Archive

Thema: Physik

Notizen: A critical step in the development of all hydrodynamic transport models (HTMs), derived from moments of the Boltzmann transport equation, is the introduction of accurate closure relations to terminate the resulting infinite set of macroscopic equations. In general, there are a number of resulting integral terms that are highly dependent on the form of the true electron distribution function. The so-called heat flux term is one very important higher-moment term that requires attention. Methods for the accurate construction of an improved heat-flux model are presented. In this construction, a higher-moments approach is combined with a unique definition of electron temperature (i.e., based upon an ansatz distribution) to investigate the effects of conduction-band nonparabolicity and distributional asymmetry. The Monte Carlo method has been used to evaluate the resulting model closures and to study microscopic electron dynamics. These investigations have identified an important relationship between a particular symmetric (i.e., thermal) component of the electron distribution function and the heat flow vector. This knowledge is important because all the parameters in the HTM must be closed (i.e., related to each other through a common set of system variables) before the technique can be accurately applied to the study of electron transport in semiconductor devices.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1063/1.355189

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