p. 1-7The density of emission current by a rough surface with fractal structure is analyzed. A possible experimental setup is modeled by an irregular emitting surface, iteratively generated by a fractional Brownian motion (FBM) algorithm with roughness (or Hurst) exponent H=0.3 and a far away plane representing the anode. The boundaries are held at a fixed potential difference and the Laplace’s equation, with lateral periodic conditions, was numerically solved. The solution for the potential leads to the evaluation of the local field and, subsequently, the current density evaluated by using the Fowler-Nordheim’s approach. The results hint at a strong local dependence of the electric field with small variations in the roughness of the irregu...
A general theory for an arbitrary potential sweep voltammetry on an arbitrary topography of an elect...
We have generalized the Anson equation for chronocoulometry at deterministic and randomly rough elec...
Over the past 5 years, researchers at Princeton Plasma Physics Laboratory (PPPL) have been engaged i...
Texto completo: acesso restrito. p. 1-12In this study, the behavior of the electric field and its po...
We analyze the problem of diffusion to irregular electrode whose irregularity is characterized as st...
The authors present a fractal model for a rough interface between an electrode and an electrolyte. T...
A theory is developed for diffusion-limited charge transfer on a non-fractally rough electrode. The ...
We developed a theoretical method based on limited scale power law form of the interfacial roughness...
A consistent physical and mathematical model of the propagation of electromagnetic waves in an inhom...
Abstract: In the present work deals with the simulation of fractal growth patterns in electrodeposit...
International audienceFractional Brownian motion is known to be a realistic model for many natural r...
We study the properties of a Laplacian potential around an irregular object of finite surface resist...
A theoretical model is developed to quantify the effect of diffusion controlled adsorption of electr...
It has been demonstrated that the general topological characteristics of branched electrical dischar...
We develop a theory for the electrical admittance of a rough interface under diffusion-limited and p...
A general theory for an arbitrary potential sweep voltammetry on an arbitrary topography of an elect...
We have generalized the Anson equation for chronocoulometry at deterministic and randomly rough elec...
Over the past 5 years, researchers at Princeton Plasma Physics Laboratory (PPPL) have been engaged i...
Texto completo: acesso restrito. p. 1-12In this study, the behavior of the electric field and its po...
We analyze the problem of diffusion to irregular electrode whose irregularity is characterized as st...
The authors present a fractal model for a rough interface between an electrode and an electrolyte. T...
A theory is developed for diffusion-limited charge transfer on a non-fractally rough electrode. The ...
We developed a theoretical method based on limited scale power law form of the interfacial roughness...
A consistent physical and mathematical model of the propagation of electromagnetic waves in an inhom...
Abstract: In the present work deals with the simulation of fractal growth patterns in electrodeposit...
International audienceFractional Brownian motion is known to be a realistic model for many natural r...
We study the properties of a Laplacian potential around an irregular object of finite surface resist...
A theoretical model is developed to quantify the effect of diffusion controlled adsorption of electr...
It has been demonstrated that the general topological characteristics of branched electrical dischar...
We develop a theory for the electrical admittance of a rough interface under diffusion-limited and p...
A general theory for an arbitrary potential sweep voltammetry on an arbitrary topography of an elect...
We have generalized the Anson equation for chronocoulometry at deterministic and randomly rough elec...
Over the past 5 years, researchers at Princeton Plasma Physics Laboratory (PPPL) have been engaged i...