Abstract
Both scanning electron microscopes (SEM) and helium ion microscopes (HeIM) are based on the same principle of a charged particle beam scanning across the surface and generating secondary electrons (SEs) to form images. However, there is a pronounced difference in the energy spectra of the emitted secondary electrons emitted as result of electron or helium ion impact. We have previously presented evidence that this also translates to differences in the information depth through the analysis of dopant contrast in doped silicon structures in both SEM and HeIM. Here, it is now shown how secondary electron emission spectra (SES) and their relation to depth of origin of SE can be experimentally exploited through the use of energy filtering (EF) in low voltage SEM (LV-SEM) to access bulk information from surfaces covered by damage or contamination layers. From the current understanding of the SES in HeIM it is not expected that EF will be as effective in HeIM but an alternative that can be used for some materials to access bulk information is presented.
Highlights
The field of scanning electron microscopy (SEM) has seen major changes in the past decade in particular in terms of resolution improvements for low accelerating voltages, e.g. monochromated LVSEM resulting in sub-nanometer resolution [1]
The escape depth of the low energy secondary electrons (SEs) is increased in grown SiO2 compared to Si and exceeds 10nm, deeper than the majority of the Gaion damage. This makes no difference to dopant contrast of a standard SE image which is strongly dominated by SEs originating from the damaged layer
The sharp increase in contrast is a result of the surface band bending depth becoming smaller than the SE escape depth. This phenomenon can be observed in the helium ion microscopes (HeIM), but at a higher doping level of 1019 cm-3[11], and a shallower band bending region. The latter suggest a shallower escape depth for SEs generated by He ion impact when compared to those generated by electron impact, leading to extreme surface sensitivity
Summary
This content has been downloaded from IOPscience. Please scroll down to see the full text. Ser. 522 012049 (http://iopscience.iop.org/1742-6596/522/1/012049) View the table of contents for this issue, or go to the journal homepage for more. Download details: IP Address: 152.78.67.7 This content was downloaded on 08/07/2014 at 16:08 Please note that terms and conditions apply
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