FERRARI, Leonardo

FERRARI, Leonardo  

Dipartimento di Fisica (attivo dal 01/01/1900 al 25/07/2012)  

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Risultati 1 - 13 di 13 (tempo di esecuzione: 0.047 secondi).
Titolo Data di pubblicazione Autore(i) File
A proper mobility formula for large, heavy particles in gases in any regime 1-gen-2000 Ferrari, Leonardo
Brownian particles in an external field: Asymptotic distribution functions and mean square displacement 1-gen-2010 Ferrari, Leonardo
Friction coefficient, mean velocity, and conductivity tensor of large, heavy ions in a gas in any regime in external fields 1-gen-2001 Ferrari, Leonardo
Heavy (or large) ions in a fluid in an electric field: The diffusion equation exactly following from the Fokker-Planck equation. 1-gen-2008 Ferrari, Leonardo
Heavy (or large) ions in a fluid in an electric field: The fundamental solution of the Fokker-Planck equation and related questions 1-gen-2003 Ferrari, Leonardo
Kinetic equation and transport properties of large, heavy ions in a gas in any regime in external fields 1-gen-2006 Ferrari, Leonardo
Monte Carlo computer simulation of the deposition of CdTe thin films by close-spaced sublimation 1-gen-2000 Romeo, Nicola; Tedeschi, Riccardo Alfredo Arturo; Ferrari, Leonardo; Pasquali, S; Bosio, Alessio; Canevari, V.
Monte Carlo simulation of Cd and Te diffusion during the growth of CdTe thin films by close-spaced sublimation 1-gen-2000 Romeo, N.; Tedeschi, R.; Pasquali, S.; Ferrari, Leonardo; Bosio, Alessio; Canevari, V.; Alfieri, A.
Note: The seeming disagreement between a recent Brownian-particle diffusion equation and a previous result: A clarification 1-gen-2010 Ferrari, Leonardo
Particle swarms in gases: The velocity-average evolution equations from Newton's law 1-gen-2003 Ferrari, Leonardo
Particles dispersed in a dilute gas. II. from the Langevin equation to a more general kinetic approach 1-gen-2014 Ferrari, Leonardo
Particles dispersed in a dilute gas: Limits of validity of the Langevin equation. 1-gen-2007 Ferrari, Leonardo
Response to "Comment on 'Heavy (or large) ions in a fluid in an electric field: The diffusion equation exactly following from the Fokker-Planck equation'" 1-gen-2010 Ferrari, Leonardo