Title :
Mobility Measurement in Nanowires Based on Magnetic Field-Induced Current Splitting Method in H-Shape Devices
Author :
Barbut, Lucian ; Jazaeri, Farzan ; Bouvet, D. ; Sallese, Jean-Michel
Author_Institution :
Swiss Fed. Inst. of Technol., Lausanne, Switzerland
Abstract :
This paper investigates a new method to measure mobility in nanowires. With a simple analytical approach and numerical simulations, we bring evidence that the traditional technique of Hall voltage measurement in low-dimensional structures such as nanowires may generate large errors, while being challenging from a technological aspect. Here, we propose to extract the drift mobility in nanowires by measuring a variation of the electric current caused by the presence of a magnetic field, in a specific nanowire network topology. This method overcomes the limitations inherent to the standard Hall effect technique and might open the way to a more precise and simple measurement of mobility in nanowires, still a matter for intensive research.
Keywords :
Hall mobility; carrier density; nanowires; voltage measurement; H-shape devices; Hall effect technique; Hall voltage measurement; drift mobility; electric current; low-dimensional structures; magnetic field; mobility measurement; nanowire network topology; Charge carrier density; Current measurement; Electrodes; Hall effect; Nanowires; Semiconductor device measurement; Voltage measurement; Carrier density; current sensing; current splitting; hall effect; mobility measurement; nanowire; nanowire.;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2014.2321284
