Lateral Spreads of Be and Si in GaAs Implanted with a Maskless Ion Implantation System

1 July 1983

journal article
Published by IOP Publishing in Japanese Journal of Applied Physics

Vol. 22 (7A) , L423
https://doi.org/10.1143/jjap.22.l423

Abstract

Submicron Si and Be ion beams have been implanted into GaAs using a 100 kV maskless ion implantation system with a liquid metal ion source which is capable of emitting double ion species (Si⁺⁺ and Be⁺⁺). Both ion beams are implanted at 160 keV with the dose of 10¹² to 10¹⁵ cm^-2. The profiles of the implanted dopants have been estimated by observing the stain etching patterns on the cleaved planes before and after annealing. It has been found that high dose implantation results in a considerable lateral impurity spread of 1 µm or more, even with the focused ion beams having a diameter of 0.1 µm. However, doping of submicron width can be realized with relatively low doses or with shallow implantation.

Keywords

This publication has 6 references indexed in Scilit:

A 100 kV Maskless Ion-Implantation System with an Au–Si–Be Liquid Metal Ion Source for III-V Compound Semiconductors
Japanese Journal of Applied Physics, 1983
FET fabrication using maskless ion implantation
Journal of Vacuum Science and Technology, 1981
Lateral spread of P+ ions implanted in silicon through the SiO2 mask window
Journal of Applied Physics, 1979
Monte Carlo simulation of depth and lateral profiles of boron atoms implanted in polycrystalline silicon
Journal of Applied Physics, 1977
Theoretical Considerations in Lateral Damage Distribution Formed by Ion-Implantation
Japanese Journal of Applied Physics, 1975
Theoretical Considerations on Lateral Spread of Implanted Ions
Japanese Journal of Applied Physics, 1972