Local noise analysis of a Schottky contact: combined thermionic-emissiondiffusion theory

A theoretical model for the noise properties of Schottky barrier diodes in the framework of the thermionic-emission¿diffusion theory is presented. The theory incorporates both the noise inducedby the diffusion of carriers through the semiconductor and the noise induced by the thermionicemission of carriers across the metal¿semiconductor interface. Closed analytical formulas arederived for the junction resistance, series resistance, and contributions to the net noise localized indifferent space regions of the diode, all valid in the whole range of applied biases. An additionalcontribution to the voltage-noise spectral density is identified, whose origin may be traced back tothe cross correlation between the voltage-noise sources associated with the junction resistance andthose for the series resistance. It is argued that an inclusion of the cross-correlation term as a newelement in the existing equivalent circuit models of Schottky diodes could explain the discrepanciesbetween these models and experimental measurements or Monte Carlo simulations.

Local noise analysis of a Schottky contact: combined thermionic-emissiondiffusion theory

A theoretical model for the noise properties of Schottky barrier diodes in the framework of the thermionic-emission¿diffusion theory is presented. The theory incorporates both the noise inducedby the diffusion of carriers through the semiconductor and the noise induced by the thermionicemission of carriers across the metal¿semiconductor interface. Closed analytical formulas arederived for the junction resistance, series resistance, and contributions to the net noise localized indifferent space regions of the diode, all valid in the whole range of applied biases. An additionalcontribution to the voltage-noise spectral density is identified, whose origin may be traced back tothe cross correlation between the voltage-noise sources associated with the junction resistance andthose for the series resistance. It is argued that an inclusion of the cross-correlation term as a newelement in the existing equivalent circuit models of Schottky diodes could explain the discrepanciesbetween these models and experimental measurements or Monte Carlo simulations.

Estudi d'impacte acústic de l'Avinguda Sant Jordi del municipi d'Olot

Aquest Projecte Final de Carrera consta de realitzar una sèrie de mesures de soroll adequades, previ estudi de les característiques del tram de carretera a avaluar, per tal de crear un model amb el programa CADNA a partir del qual poder valorar els nivells de soroll generats per l’Avinguda Sant Jordi a la ciutat d’Olot i veure com afecten en els veïns de la zona. Posteriorment i amb independència dels resultats obtinguts, s’estudiaran diferents hipòtesis per a poder disminuir aquests nivells de soroll. No obstant, també s’avaluarà l’efecte que produiria en els nivells acústics de l’Avinguda Sant Jordi la construcció d’un vial alternatiu

Estudi d'impacte acústic de l'avinguda de França en el municipi de Sarrià de Ter

El present projecte s’emmarca dins les accions empreses pel conveni de cooperació entre la Universitat de Girona i l’Ajuntament de Sarrià de Ter per tal d’estudiar l’impacte acústic de diferents infraestructures i activitats de Sarrià de Ter. En el cas que ens ocupa, hem tractat el terme municipal de Sarrià de Ter, estudiant tota la longitud de l’antiga N-II, actual avinguda de França, en el seu pas pel municipi per determinar-ne l’impacte acústic. Cal remarcar que Sarrià de Ter, a part de patir l’Avinguda de França com a important font de soroll, es veu afectada per una remarcable activitat industrial també al pas de l’antiga Nacional–II, pel pas de l’autopista AP-7, pel tren i per una indústria d’extracció d’àrids. El projecte de l’estudi d’impacte acústic de l’avinguda de França en el municipi de Sarrià de Ter, té com a objectiu principal mesurar i calcular els nivells de contaminació acústica, i estudiar possibles accions per tal de minimitzar l’impacte acústic del vial al municipi. El projecte d’estudi de soroll de la població de Sarrià de Ter, té com a objectiu final elaborar el mapa acústic d’impacte de la infraestructura en el seu pas pel terme municipal

Suppression of scroll wave turbulence by noise

Rotating scroll waves are dynamical spatiotemporal structures characteristic of three-dimensional active media. It is well known that, under low excitability conditions, scroll waves develop an intrinsically unstable dynamical regime that leads to a highly disorganized pattern of wave propagation. Such a ¿turbulent¿ state bears some resemblance to fibrillation states in cardiac tissue. We show here that this unstable regime can be controlled by using a spatially distributed random forcing superimposed on a control parameter of the system. Our results are obtained from numerical simulations but an explicit analytical argument that rationalizes our observations is also presented.

Suppression of scroll wave turbulence by noise

Rotating scroll waves are dynamical spatiotemporal structures characteristic of three-dimensional active media. It is well known that, under low excitability conditions, scroll waves develop an intrinsically unstable dynamical regime that leads to a highly disorganized pattern of wave propagation. Such a ¿turbulent¿ state bears some resemblance to fibrillation states in cardiac tissue. We show here that this unstable regime can be controlled by using a spatially distributed random forcing superimposed on a control parameter of the system. Our results are obtained from numerical simulations but an explicit analytical argument that rationalizes our observations is also presented.