论文信息 - Spectroscopic study of polysilicon traps by means of fast capacitance transients

Spectroscopic study of polysilicon traps by means of fast capacitance transients

The energy distribution of polysilicon traps is studied by means of a simple methodology based on the measurement of fast capacitance transients observed after disturbing metal/oxide/poly-Si/Si structures with positive and negative gate voltage pulses. This methodology relies on the well-known deep-level-transient spectroscopy technique. Amorphous silicon presents two defect bands at 0.31 and 0.58 eV below the conduction band whose magnitudes are significantly reduced after spike anneal. An increasing defect tail is observed toward the valance band whose magnitude can be drastically suppressed by a proper postdeposition anneal.

[1] C. O. Chui,et al. One-Time-Programmable Memory in LTPS TFT Technology With Metal-Induced Lateral Crystallization , 2012, IEEE Transactions on Electron Devices.

[2] D. Biegelsen,et al. Electronic traps and Pb centers at the Si/SiO2 interface: Band‐gap energy distribution , 1984 .

[3] Y. Iwata,et al. Bit Cost Scalable Technology with Punch and Plug Process for Ultra High Density Flash Memory , 2007, 2007 IEEE Symposium on VLSI Technology.

[4] D. Lang. Deep‐level transient spectroscopy: A new method to characterize traps in semiconductors , 1974 .

[5] Masaki Hara,et al. High performance poly-Si TFTs fabricated using pulsed laser annealing and remote plasma CVD with low temperature processing , 1995 .

[6] Guido Groeseneken,et al. Fast $V_{\rm TH}$ Transients After the Program/Erase of Flash Memory Stacks With High-$k$ Dielectrics , 2011, IEEE Transactions on Electron Devices.