Articles you may be interested inMechanism and lifetime prediction method for hot-carrier-induced degradation in lateral diffused metal-oxidesemiconductor transistors Appl. Phys. Lett. 92, 243501 (2008); 10.1063/1.2947588Dependence of the performance and reliability of n-metal-oxide-silicon field effect transistors on interlayer dielectric processing Nanopotentiometry: Local potential measurements in complementary metal-oxide-semiconductor transistors using atomic force microscopy High temperature performance mapping and failure analysis of 4H-silicon carbide mosfets AIP Conf.The objective of this study was for it to serve as a guide for understanding high density plasma induced damage during wafer fabrication and etchback for device debug, electron-beam, and failure analysis. A study of electrical degradation of packaged and fully processed transistors that were functionally etched back was carried out. Two high density plasma technologies, electron cyclotron resonance ͑ECR͒ and inductively coupled plasma ͑ICP͒, from various vendors, were evaluated. Transconductance (gm), threshold voltage (Vt), subthreshold slope, and gate leakage (Ig) were measured before and after the functional etch. Degradation took place even without polysilicon being directly exposed to the plasma. It was found that there is a strong correlation between the threshold voltage shift, and gate current shift, and they exhibit a bimodal relationship. The gate edge intensive transistor was most susceptible to degradation. The design of the etchers seemed to be the key factor rather than the choice of technology ͑ECR or ICP͒ with regard to transistor degradation. Gate oxide breakdown due to the charging of metal lines, caused by nonuniform electrical charging of the surface, adequately explains the observed transistor parameter shifts.
High-resolution photon emission ~ spectromehy has been employed to study impact ionization and photon generation dynamics in deep sub-micron MOSFET. Physical impact ionization -indirect band-gap recombination model, which is in good agreement with the broadband spectrum properties, has been developed. Abrupt change to photon emission spectrum profile at l.8eV has heeu attributed to energy -momentum, conservation requirements during impact ionization. The abrupt changes in photon intensity with respect to photon energy need to he accounted in electron population and electron mean free path derivation, using photoemission methods. SUMMARYUtilization of spectral analysis of transistor emission to understand impact ionization and emission process in saturated transistors has been done by several researchen [I] -[6]. However, the previous set-up used limits the information gathered on the spectrum. In our set-up, we used a high-resolution spectrum analysis method. .The popular bremsstrahlung model [I], [6], [7], i s not adequate to explain the energy profile of the spectrum collected in this manner.
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