The Debye length has become increasingly significant in the modeling of solid state devices as improvements in lithographic technologies have enabled smaller geometries.
32.
In contrast, Potential Determining Ions, whose concentrations affect surface potential ( by surface chemical reactions ) as well the Debye length.
33.
In nano-channels, the Debye length is usually comparable with the channel width, therefore solution within the channel is charged.
34.
From the equation for the Debye length, it is demonstrated how ionic strength can ultimately affect the electrostatic interactions in a solution.
35.
Since the polyelectrolyte dissociation releases counter-ions, this necessarily affects the solution's ionic strength, and therefore the Debye length.
36.
Due to Debye shielding, the scale length of the transition region will be the Debye length \ lambda _ \ mathrm { D }.
37.
Parallel electric fields with amplitudes reaching nearly 1 V / m were inferred to be confined to a thin layer of approximately 10 Debye lengths.
38.
In astrophysical plasmas, Debye screening prevents electric fields from directly affecting the plasma over large distances, i . e ., greater than the Debye length.
39.
OML theory is defined with the assumption that the electron Debye length is equal to or larger than the size of the object and the plasma is not flowing.
40.
This can and does cause extremely complex behavior, such as the generation of plasma double layers, an object that separates charge over a few tens of Debye lengths.
