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Acoustic plasmons in a conducting double layer
Physical Review B, 1988We have investigated the acoustic plasma branch present in the longitudinal spectrum of two spatially separated parallel quasi-two-dimensional conducting layers. Our approach is based on the dielectric theory and is completely analytical within the random-phase approximation.
Santoro, Giuseppe Ernesto +1 more
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Energy Release in Double Layers
Space Science Reviews, 1994A Double layer (DL) in a current carrying plasma sustains a localised net potential difference and acts as an impedance converting electrical energy to directed particle energy determined by the DL potential. DL’s accelerate equal numbers of ions and electrons for relativistic energies, otherwise electron energisation predominates.
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Applications of the Diffuse Double Layer
Particulate Science and Technology, 2002Studies of the diffuse double layer have entered an exciting phase due to advances made in fundamental areas of charged solid-liquid systems and the utility of this parameter in soil chemistry and material science. This review discusses the relevance of the Langmuirian approach and the application of the DLVO theory when attractive and repulsive forces
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The Physics of Fluids, 1983
Based on realistic velocity distributions, analytic solutions of monotonic double layers which essentially agree with observations are obtained. A universal constant is found which relates potential drop, free ion energy, and trapped ion temperature in a simple manner.
Schamel, H., Bujarbarua, S.
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Based on realistic velocity distributions, analytic solutions of monotonic double layers which essentially agree with observations are obtained. A universal constant is found which relates potential drop, free ion energy, and trapped ion temperature in a simple manner.
Schamel, H., Bujarbarua, S.
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The Physics of Fluids, 1979
Strong electric potential double layers (eφ/Te≳10) are produced in the University of Iowa’s triple plasma device. The electron beam which results from acceleration by the double layer maintains its identity with little heating until it reaches the end of the chamber.
Peter Coakley, Noah Hershkowitz
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Strong electric potential double layers (eφ/Te≳10) are produced in the University of Iowa’s triple plasma device. The electron beam which results from acceleration by the double layer maintains its identity with little heating until it reaches the end of the chamber.
Peter Coakley, Noah Hershkowitz
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The electrical double layer on oxides: Site-binding in the porous double layer model
Colloids and Surfaces, 1990Abstract The porous double layer model for the oxide-solution interface introduced by Lyklem a is combined with the ionizable surface group model of Healy and White. The influences of the various parameters of the model on the surface charge and surface potential are evaluated and experimental surface charge density and zeta potential data as a ...
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2004
In examining the properties of the metal | solution interface, two limiting types of behavior are found, namely, the ideal polarizable interface and the ideally nonpolarizable interface. In the former case, the interface behaves as a capacitor so that charge can be placed on the metal using an external voltage source. This leads to the establishment of
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In examining the properties of the metal | solution interface, two limiting types of behavior are found, namely, the ideal polarizable interface and the ideally nonpolarizable interface. In the former case, the interface behaves as a capacitor so that charge can be placed on the metal using an external voltage source. This leads to the establishment of
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The American Mathematical Monthly, 1926
(1926). On the Double Layer Potential. The American Mathematical Monthly: Vol. 33, No. 3, pp. 136-139.
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(1926). On the Double Layer Potential. The American Mathematical Monthly: Vol. 33, No. 3, pp. 136-139.
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