Title of article :
Conducting atomic force microscopy studies on local electrical
properties of ultrathin SiO films
Author/Authors :
Shuzo Oshima and Atsushi Ando، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2000
Abstract :
We have demonstrated the characterizations of the local electrical properties of ultrathin 1–4 nm.SiO2rSi 001.
structures using a conducting atomic force microscopy with a nanometer-scale resolution in a vacuum 1=10y5 Pa.. The
measurement in a vacuum enables to reduce the influence of adsorbed water on quantitative current measurements, while
there is a problem at the measurement in air of 60% humidity. Fitting to the Fowler–Nordheim equation is good at thicker
SiO2 films more than ;3 nm. We have also demonstrated the results of continuous current–voltage measurements during
the breakdown process by charge injection through a conducting probe. q2000 Elsevier Science B.V. All rights reserved.
Keywords :
Electron tunneling , Dielectric breakdown , Atomic force microscopy AFM.1. IntroductionAs the gate oxide films of metal-oxide-semicon-ductor MOS.devices become thin , thefollowing subjects are important: 1. the surfaceflatness of Si substrates prior to form the SiO films , and 3. studies on theelectrical properties of the ultrathin SiO films on a 2nanometer scale.) Corresponding author. Tel.: q81-298-61-5515 , 2 2. methods of oxidation , it is increasinglyrequisite to obtain the ultrathin -5 nm.SiO films 2with good insulation. In order to form such films , fax: q81-298-61-5523.E-mail , Silicon oxide
Journal title :
Applied Surface Science
Journal title :
Applied Surface Science
