Low-frequency noise spectroscopy of bulk and border traps in nanoscale devices
Résumé
a eddy.simoen@imec.be, b bogdan.cretu@ensicaen.fr, c fangwen@ime.ac.cn, d marc.aouliache@imec.be, e jean-marc.routoure@unicaen.fr, f regis.carin@unicaen.fr, g Abstract. The principles and application of Generation-Recombination (GR) noise spectroscopy will be outlined and illustrated for the case of traps in Ultra-Thin Buried Oxide Silicon-on-Insulator nMOSFETs and for vertical polycrystalline silicon nMOSFETs. It will be shown that for scaled devices the GR noise is originating from a single defect, giving rise to a so-called Random Telegraph Signal (RTS). Several methods will be described for an accurate extraction of the RTS parameters (amplitude, up and down time constant). It will be demonstrated that besides the deep-level parameters also the position of the trap in the channel can be derived from a numerical modeling of the RTS amplitude.
Origine : Fichiers produits par l'(les) auteur(s)
Loading...