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Дослiдження методами ядерного мiкроаналiзу поверхневих наношарiв структури золото–кремнiй

Дослiдження методами ядерного мiкроаналiзу поверхневих наношарiв структури золото–кремнiй

The Rutherford backscattering and particle-induced X-ray emission methods are used to study the surface layers in gold–silicon structures, the parameters of which govern the operational characteristics of electron devices constructed on their basis. The measurements are performed on a high-precision...

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Bibliographic Details
Main Authors: Soroka, V. I., Lebed, S. O., Tolmachov, M. G., Kukharenko, O. G., Veselov, O. O.
Format: Article
Language:English
Ukrainian
Published: Publishing house "Academperiodika" 2018
Subjects:
ядерний мiкроаналiз
резерфордiвське зворотне розсiяння
iндуковане частинками характеристичне рентгенiвське випромiнювання
альфа-частинки
“cкануючий ядерний зонд”
поверхневi наношари
промiжний шар
nuclear microanalysis
Rutherford backscattering
particle induced X-ray emission
alpha particles
“Nuclear scanning probe”
surface layers
interface layer
Online Access:https://ujp.bitp.kiev.ua/index.php/ujp/article/view/2018296
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Summary:The Rutherford backscattering and particle-induced X-ray emission methods are used to study the surface layers in gold–silicon structures, the parameters of which govern the operational characteristics of electron devices constructed on their basis. The measurements are performed on a high-precision microanalytical unit “Nuclear scanning probe” recently put into operation at the “Spectrum” laboratory. The thicknesses of a gold layer sputtered onto the specimen surface were about 17 and 20 nm for two different specimens. The layer non-uniformity was less than 1.6 nm and did not exceed the experimental error. A substantial amount of the fluorine impurity was revealed under the gold layer in the gold–silicon interface layer. Probably, it may be remnants of fluorine remaining after the etching of the silicon surface in a mixture of acids that included the hydrofluoric one (HF). The amount of fluorine detected in a series of measurements was found to strongly correlate with the current of alpha-particles at the target surface during the spectrum measurement. Since the local heating of the target depends on the current, it is evident that the local diffusion rate of fluorine atoms varied over the target surface.

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