论文信息 - New understanding of the statistics of random telegraph noise in Si nanowire transistors - the role of quantum confinement and non-stationary effects

New understanding of the statistics of random telegraph noise in Si nanowire transistors - the role of quantum confinement and non-stationary effects

In this paper, the random telegraph noise (RTN) statistics in silicon nanowire transistors (SNWTs) are comprehensively studied. The capture/emission time constants and probabilities are found to be strongly impacted by the quantum confinement in SNWTs, which cannot be fully explained by classical RTN theory. A full quantum RTN model for SNWTs is proposed for fundamental understanding of the experiments. The characteristics of non-stationary RTN in SNWTs under high-field biases are studied for the first time, based on the developed statistical trap-response (STR) characterization method. The trap capture probability is found to be much different from that of the quasi-stationary RTN, leading to large errors in circuit aging prediction if using traditional RTN distributions. These new understandings are critical for robust SNWT circuit design against RTN.

[1] M. A. Amato,et al. A comparison of simple theoretical models for the photoionisation of impurities in semiconductors , 1980 .

[2] Andrew R. Brown,et al. RTS amplitudes in decananometer MOSFETs: 3-D simulation study , 2003 .

[3] J. A. López-Villanueva,et al. Quantum two-dimensional calculation of time constants of random telegraph signals in metal-oxide-semiconductor structures , 1997 .

[4] S. Ng,et al. Theory of non-radiative capture of carriers by multiphonon processes for deep centres in semiconductors , 1994 .

[5] M. J. Kirton,et al. Noise in solid-state microstructures: A new perspective on individual defects, interface states and low-frequency (1/ƒ) noise , 1989 .