Characterization and Modeling of Subfemtofarad Nanowire Capacitance Using the CBCM Technique

Characterization and Modeling of Subfemtofarad Nanowire Capacitance Using the CBCM Technique

The experimental characterization of gate capacitance in nanoscale devices is challenging. We report an application of the charge-based capacitance measurement (CBCM) technique to measure the gate capacitance of a single-channel nanowire transistor. The measurement results are validated by 3-D elect...

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Veröffentlicht in:IEEE electron device letters 2009-05, Vol.30 (5), p.526-528
Hauptverfasser: Hui Zhao, Raseong Kim, Paul, A., Luisier, M., Klimeck, G., Fa-Jun Ma, Rustagi, S.C., Samudra, G.S., Singh, N., Guo-Qiang Lo, Dim-Lee Kwong
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Capacitance
Capacitance measurement
Charge-based capacitance measurement (CBCM)
CMOS technology
Computation
Computer networks
Current measurement
Devices
Electronics
Electrostatic measurements
Exact sciences and technology
Gates
Microelectronics
Molecular electronics, nanoelectronics
MOSFETs
Nanocomposites
Nanomaterials
Nanoscale devices
Nanostructure
nanowire MOSFETs
Nanowires
Parasitic capacitance
self-consistent C - V modeling
Semiconductor device modeling
Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
subfemtofarad-capacitance measurement
Transistors
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Beschreibung
Zusammenfassung:The experimental characterization of gate capacitance in nanoscale devices is challenging. We report an application of the charge-based capacitance measurement (CBCM) technique to measure the gate capacitance of a single-channel nanowire transistor. The measurement results are validated by 3-D electrostatic computations for parasitic estimation and 2-D self-consistent sp 3 s* d 5 tight-binding computations for intrinsic gate capacitance calculations. The device simulation domains were constructed based on SEM and TEM images of the experimental device. The carefully designed CBCM technique thus emerges as a useful technique for measuring the capacitance and characterizing the transport in nanoscale devices.
ISSN:0741-3106
1558-0563
DOI:10.1109/LED.2009.2015588