Title :
Electron and hole charge separation with a dual channel transistor
Author :
Roy, Anirban ; White, Marvin H.
Author_Institution :
Sherman Fairchild Center, Lehigh Univ., Bethlehem, PA, USA
fDate :
11/1/1989 12:00:00 AM
Abstract :
Summary form only given. The authors have fabricated a n+ poly gate dual channel memory transistor with a 0.75- mu m-deep n-buried layer on <100> p-Si, and a triple dielectric (ONO) sandwich comprising a 20- mu A tunneling oxide, 115 AA of LPCVD (low-pressure chemical vapor deposition) deposited Si3N4, and 52 AA of top oxide. For positive gate bias beyond flat band, electrons are collected at the substrate. For negative gate bias beyond flat band, holes are supplied by the surface channel contacts and the electrons, spatially separated from the holes by the potential well in the buried channel, are collected at the buried-channel contacts. The data for electron and hole injection into the nitride show centroids (from the tunneling oxide-nitride interface) to be approximately equal to the nitride thickness for small level injection, decreasing with increasing injection and saturation beyond 1 mu C/cm2. The saturation values for electron and hole centroids are 75+or-5 AA and 55+or-2 AA, respectively.
Keywords :
dielectric thin films; insulated gate field effect transistors; semiconductor storage; semiconductor technology; silicon compounds; MONOS transistors; SiO2-Si3N4-SiO2; centroids; dual channel memory transistor; dual channel transistor; electron hole charge separation; hole injection; negative gate bias beyond flat band; nitride thickness; polycrystalline Si gate; positive gate bias beyond flat band; triple dielectric sandwich; tunneling oxide-nitride interface; Charge carrier processes; Chemical vapor deposition; Circuit testing; Dielectric substrates; Dielectrics; Digital circuits; Electrodes; Electrons; Hot carriers; MOSFET circuits; Potential well; Spontaneous emission; Stress; Tunneling;
Journal_Title :
Electron Devices, IEEE Transactions on
