Investigation of Low-Frequency Noise Behavior After Hot-Carrier Stress in an n-Channel Junctionless Nanowire MOSFET

Investigation of Low-Frequency Noise Behavior After Hot-Carrier Stress in an n-Channel Junctionless Nanowire MOSFET

The dc performance and low-frequency (LF) noise behaviors after hot-carrier (HC)-induced stress were compared for a junctionless nanowire transistor (JNT) and an inversion-mode nanowire transistor (INT). Less dc degradation was found in the JNT than in the INT. Due to the low lateral peak electric f...

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Veröffentlicht in:IEEE electron device letters 2012-11, Vol.33 (11), p.1538-1540
Hauptverfasser: PARK, Chan-Hoon, KO, Myung-Dong, KIM, Ki-Hyun, LEE, Sang-Hyun, YOON, Jun-Sik, LEE, Jeong-Soo, JEONG, Yoon-Ha
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Cross-disciplinary physics: materials science
rheology
Degradation
Electronics
Exact sciences and technology
Hot carrier effects
Hot-carrier (HC)-induced degradation
junctionless nanowire transistor (JNT)
low-frequency (LF) noise
Low-frequency noise
Materials science
Molecular electronics, nanoelectronics
multigate
Nanoscale materials and structures: fabrication and characterization
Nanowires
Physics
Quantum wires
Semiconductor device measurement
Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
Stress
Transistors
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Beschreibung
Zusammenfassung:The dc performance and low-frequency (LF) noise behaviors after hot-carrier (HC)-induced stress were compared for a junctionless nanowire transistor (JNT) and an inversion-mode nanowire transistor (INT). Less dc degradation was found in the JNT than in the INT. Due to the low lateral peak electric field (E-field) and electrons traveling through the center of the nanowire, the LF noise increment after HC-induced stress in the JNT is much lower than that in the INT. Furthermore, due to the higher lateral peak E-field located under the gate and the conduction path that occurs near the surface, the LF noise of the INT is very sensitive to HC stress.
ISSN:0741-3106
1558-0563
DOI:10.1109/LED.2012.2213575