Stabilization of noise parameters during annealing of highly alloyed structures of noise diodes-Reference-Cited by-同舟云学术

Stabilization of noise parameters during annealing of highly alloyed structures of noise diodes

Published:2021-10-01 Issue:6 Volume:19 Page:32-41
ISSN:2708-0382
Container-title:Doklady BGUIR
language:
Short-container-title:Doklady Belorusskogo gosudarstvennogo universiteta informatiki i radioèlektroniki

Author:

Busliuk V. V.¹,Emelyanov V. A.²,Baranov V. V.³,Derechennik S. S.¹,Prasalovich V. S.⁴

Affiliation:

1. Brest State Technical University

2. “INTEGRAL” Joint Stock Company

3. Belarusian State University of Informatics and Radioelectronics

4. Belarusian State University

Abstract

Stabilization of residual point defects at the finishing stages of noise diodes can be ensured by the selection of appropriate ignition modes and the environment of its conduct. The method and technology of reducing the concentration of point defects in the structure of p-n-transition, taking into account the content of impurities of secondary metals, oxygen and nitrogen is proposed. It has been established that the burning of readymade structures and diodes of noise generators in nitrogen environments at temperatures of 450…600 °С for (80 ± 3) min leads to an increase in spectral noise density and a significant (twice) reduction of its unevenness. The most important result of this burn is a reduction in the spread of the average values of the noise parameters studied: by 61.2 % in effective noise voltage; spectral density by 34.2 %; at the boundary frequency of the signal by 34.9 %; in non-linear density by 25.9 %. This improves the quality of random numerical sequences in information protection software systems.

Publisher

Belarusian State University of Informatics and Radioelectronics

Reference10 articles.

1. Buslyuk V.V., OdzhayevV.B., PanfilenkoA.K., Petlitsky A.N., Prosolovich V.S., Filipyenya V.A., Yankovsky Yu. N. [Physical Parameters of the Broadband Noise-Generator Diodes]. Russian Microelectronics. 2020;49(4):295-301.

2. Labunov V.A., Baranov I.L., Bondarenko V.P., Dorofeev A.M. [Modern gettering methods in semiconductor electronics technology]. Zarubezhnaya elektronnaya tekhnika = Zarubezhnaya elektronnaya tekhnika. 1983;11:3-66. (In Russ.)

3. Vabishchevich N.V., Brinkevich D.I., Prosolovich V.S. [Oxygen precipitates and the formation of thermal donors in silicon]. Semiconductors. 1998;32:640-641.

4. Prosolovich V.S., Yankovsky Yu.N. [Defect-doping interaction in semiconductors: a course of lectures]. Minsk: BGU; 2009. (In Russ.)

5. Vasil’ev Yu.B., Verezub N.A., Mezennyi M.V., Prosolovich V.S., Prostomolotov A.I., Reznik V.Ya. Features of defect formation under the thermal treatment of dislocation-free single-crystals large-diameter silicon wafers with the specified distribution of oxygen-containing gettering centers in the bulk. Russian microelectronics. 2013; 42(8):467-476.