Title :
Random telegraph noise in highly scaled nMOSFETs
Author :
Campbell, J.P. ; Qin, J. ; Cheung, K.P. ; Yu, L.C. ; Suehle, J.S. ; Oates, A. ; Sheng, K.
Author_Institution :
Semicond. Electron. Div., NIST, Gaithersburg, MD, USA
Abstract :
Recently, 1/f and random telegraph noise (RTN) studies have been used to infer information about bulk dielectric defects´ spatial and energetic distributions. These analyses rely on a noise framework which involves charge exchange between the inversion layer and the bulk dielectric defects via elastic tunneling. In this study, we extracted the characteristic capture and emission time constants from RTN in highly scaled nMOSFETs and showed that they are inconsistent with the elastic tunneling picture dictated by the physical thickness of the gate dielectric (1.4 nm). Consequently, our results suggest that an alternative model is required and that a large body of the recent RTN and 1/f noise defect profiling literature very likely needs to be re-interpreted.
Keywords :
1/f noise; MOSFET; semiconductor device noise; tunnelling; 1/f noise defect; RTN; dielectric defect; elastic tunneling; emission time constants; highly scaled nMOSFET; inversion layer; random telegraph noise; Charge measurement; Charge pumps; Current measurement; Dielectric measurements; Fluctuations; MOSFETs; Noise measurement; Semiconductor device noise; Telegraphy; Tunneling; 1/ƒ noise; Random Telegraph Noise; elastic tunneling;
Conference_Titel :
Reliability Physics Symposium, 2009 IEEE International
Conference_Location :
Montreal, QC
Print_ISBN :
978-1-4244-2888-5
Electronic_ISBN :
1541-7026
DOI :
10.1109/IRPS.2009.5173283
