Produktbild: Diffusion under the Effect of Lorentz Force

Diffusion under the Effect of Lorentz Force

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ISBN: 3658395176
ISBN 13: 9783658395179
Autor: Kalz, Erik
Verlag: Springer Spektrum
Umfang: ix, 58 S., 19 s/w Illustr., 58 p. 19 illus. Textbook for German language market.
Erscheinungsdatum: 10.11.2022
Auflage: 1/2023
Produktform: Kartoniert
Einband: Kartoniert

It is generally believed that collisions of particles reduce the self-diffusion coefficient. In this book, Erik Kalz shows that in classical systems under the effect of Lorentz force, which are characterized by diffusion tensors with antisymmetric elements, collisions surprisingly can enhance self-diffusion. In these systems, due to an inherent curving effect, the motion of particles is facilitated, instead of hindered by collisions. Consistent with this the author finds that the collective diffusion remains unaffected. Using a geometric model, he theoretically predicts a magnetic field governed crossover from a reduced to an enhanced self-diffusion. The physical interpretation is quantitatively supported by the force autocorrelation function, which turns negative with increasing the magnetic field. Using Brownian-dynamics simulations, he validates the predictions. About the AuthorErik Kalz holds a master’s degree in physics from the Technical University of Dresden. He is interested in statistical physics with applications in soft condensed matter physics and biological physics. In 2022 he will start his PhD in theoretical physics at the University of Potsdam.

Artikelnummer: 6651507 Kategorie:

Beschreibung

It is generally believed that collisions of particles reduce the self-diffusion coefficient. In this book, Erik Kalz shows that in classical systems under the effect of Lorentz force, which are characterized by diffusion tensors with antisymmetric elements, collisions surprisingly can enhance self-diffusion. In these systems, due to an inherent curving effect, the motion of particles is facilitated, instead of hindered by collisions. Consistent with this the author finds that the collective diffusion remains unaffected. Using a geometric model, he theoretically predicts a magnetic field governed crossover from a reduced to an enhanced self-diffusion. The physical interpretation is quantitatively supported by the force autocorrelation function, which turns negative with increasing the magnetic field. Using Brownian-dynamics simulations, he validates the predictions.

Autorenporträt

Erik Kalz holds a master's degree in physics from the Technical University of Dresden. He is interested in statistical physics with applications in soft condensed matter physics and biological physics. In 2022 he will start his PhD in theoretical physics at the University of Potsdam.

Herstellerkennzeichnung:


Springer Spektrum in Springer Science + Business Media
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69121 Heidelberg
DE

E-Mail: juergen.hartmann@springer.com

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