Characterization of electric charge carrier transport in organic
... The time required for the photoinjected carriers to traverse from one electrode to the other (collecting) electrode in the presence of electric field. In the TOF technique charge carrier mobility can be measured in two ways. ...
... The time required for the photoinjected carriers to traverse from one electrode to the other (collecting) electrode in the presence of electric field. In the TOF technique charge carrier mobility can be measured in two ways. ...
Modelling of Trochoidal Electron Monochromator: Influence of the
... to has x axis. The trajectory of the electrons in such fields can be obtained as a solution of the differential equation: d2~r ~ − e~v × B ...
... to has x axis. The trajectory of the electrons in such fields can be obtained as a solution of the differential equation: d2~r ~ − e~v × B ...
Conduction in Semiconductors
... take under the influence of the electric field. If the electron did not collide with the bound ions, its velocity would increase indefinitely. However, energy is lost with each collision so that the average ...
... take under the influence of the electric field. If the electron did not collide with the bound ions, its velocity would increase indefinitely. However, energy is lost with each collision so that the average ...
