Title :
Applicability limits of the two-frequency capacitance measurement technique for the thickness extraction of ultrathin gate oxide
Author :
Nara, Akiko ; Yasuda, Naoki ; Satake, Hideki ; Toriumi, Akira
Author_Institution :
Adv. LSI Technol. Lab., Toshiba Corp., Yokohama, Japan
fDate :
5/1/2002 12:00:00 AM
Abstract :
Reliable techniques for extracting the gate dielectric layer thickness from capacitance-voltage (C-V) characteristics are essential for manufacturing process quality control. Continued reduction of the dielectric layer thickness has brought about a need for new measurement procedures which can account for the direct tunneling currents through the gate insulator. We present a guideline for performing two-frequency C-V analysis of sub-2 nm gate oxides and show that it is possible to extract the dielectric layer thickness with an error of less than 4%. We show that in order to achieve this level of accuracy, it is necessary to choose the measurement frequencies and the test device size so that the dissipation remains below 1.1 at least at one of the two measurement frequencies
Keywords :
MOSFET; ULSI; capacitance; dielectric thin films; integrated circuit measurement; production testing; quality control; semiconductor device measurement; thickness measurement; tunnelling; 2 nm; ULSI; applicability limits; capacitance-voltage characteristics; dielectric layer thickness; dielectric layer thickness error; direct tunneling currents; gate dielectric layer thickness; gate insulator; gate oxides; manufacturing process quality control; measurement frequencies; measurement procedures; test device size; two-frequency C-V analysis; two-frequency capacitance measurement technique; ultrathin MOSFET structures; ultrathin gate oxide; ultrathin gate oxide thickness extraction; Capacitance measurement; Capacitance-voltage characteristics; Current measurement; Dielectric measurements; Frequency measurement; Manufacturing processes; Quality control; Size measurement; Thickness measurement; Tunneling;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
