Neutron Produced Trapping Centers in Junction Field Effect Transistors

Abstract

The junction field effect transistor has been employed to study trapping centers introduced in silicon by fast neutron irradiation. Extensive measurements have been made of both the static and dynamic characteristics of irradiated devices. The effects of neutron-produced traps have been explored in both n and p channel devices, as a function of neutron fluence and dopant concentration. The trapping center effects on small signal transconductance and large signal pulse response are characterized and the data are compared to appropriate theories to determine ionization energy values for the dominant traps. In n-type, trap energy levels of Ec - 0.38 ± 0.03 and Ec - 0.46 ± 0.03 eV are obtained, and in p-type an energy level of Ev + 0.29 ± 0.03 eV is observed.

Keywords

This publication has 15 references indexed in Scilit:

ACCURATE CAPACITANCE CALCULATIONS FOR PN JUNCTIONS CONTAINING TRAPS
Applied Physics Letters, 1971
Capacitance Energy Level Spectroscopy of Deep-Lying Semiconductor Impurities Using Schottky Barriers
Journal of Applied Physics, 1970
Application of the distributed equilibrium equivalent circuit model to semiconductor junctions
IEEE Transactions on Electron Devices, 1969
Photoconductivity Studies of Defects in Silicon: Divacancy-Associated Energy Levels
Physical Review B, 1968
Characteristics of Neutron Damage in Silicon
Physical Review B, 1968
Capacitance of Junctions on Gold-Doped Silicon
Journal of Applied Physics, 1968
Effects of deep impurities on n+p junction reverse-biased small-signal capacitance
Solid-State Electronics, 1968
Capacitance Recovery in Neutron-Irradiated Silicon Diodes by Majority and Minority Carrier Trapping
IEEE Transactions on Nuclear Science, 1968
Cascade Capture of Electrons in Solids
Physical Review B, 1960
Disordered Regions in Semiconductors Bombarded by Fast Neutrons
Journal of Applied Physics, 1959