Исследование частотной зависимости проводимости нитевидных кристаллов кремния при криогенных температурах для создания сенсоров температуры на их основе
Studies of low-temperature features of semiconductor silicon whisker conductivity play a significant role in the development of electronic devices, such as temperature sensors.The results of studies of the active component of impedance Z' for silicon whiskers obtained at cryogenic temperatures,...
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2019
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oai:tkea.com.ua:article-2362025-05-30T19:31:10Z A study of the frequency dependence of conductivity of silicon whiskers at cryogenic temperatures as basis for the temperature sensors Исследование частотной зависимости проводимости нитевидных кристаллов кремния при криогенных температурах для создания сенсоров температуры на их основе Druzhinin, A. A. Ostrovsky, I. P. Khoverko, Yu. N. Koretsky, R. N. microcrystal frequency conductivity sensor cryogenic temperature микрокристалл частота проводимость сенсор криогенная температура Studies of low-temperature features of semiconductor silicon whisker conductivity play a significant role in the development of electronic devices, such as temperature sensors.The results of studies of the active component of impedance Z' for silicon whiskers obtained at cryogenic temperatures, indicating the increase of its value under temperature decreasing, and showing the frequency dependence in the range from 0 to 250 kHz. It was found that in temperature range 4.2–20 K at a frequency ωкр which can amount from 8 to 20 kHz, depending on resistivity and temperature, the hopping conduction with the participation of phonons is observed in whisker samples, resulting in a significant reduction of Z' value at frequencies up to 250 kHz. For example, at a temperature of 4.2 K for the sample with resistivity ρ300K=0.0168 Ohm • cm the frequency ωкр is equal to 8 kHz, and in frequency range up to 250 kHz the active component of impedance is reduced approximately by half. Such behavior of the frequency response for these samples is kept up to 20 K, whereas at 25 K the value of Z' is almost independent of frequency, and at higher temperatures with the increasing of frequency, it slightly increases. Reducing the resistivity of the samples leads to a narrowing of the temperature range, where the hopping conduction is observed, and at ρ300K= 0.0143 Ohm•cm it is observed only at a helium temperature.Offset of the frequency ωкр from 8 to 20 kHz at the hopping conduction beginning, depending on temperature and the value of resistivity for studied silicon crystals, can be attributed to the change of free charge carriers concentration in such samples, because it determines the effect of Coulomb gap on ωкр.Experimental study of low-temperature conductivity of silicon whiskers allowed proposing the temperature sensor operable at temperature range 4.2–100 K. The sensor works on alternating current, because it avoids the sell-heating of sensitive element and the occurrence of «parasitic» thermopower, which also affects the accuracy of temperature measurement. Исследована частотная зависимость активного сопротивления нитевидных кристаллов кремния, легированных бором в разной концентрации, соответствующей диэлектрической стороне перехода «металл — диэлектрик», в температурном интервале 4,2–100 К. На основе анализа полученных характеристик установлены и изучены особенности механизма переноса носителей заряда в нитевидных кристаллах Si в области низких частот. Разработан тензорезистор, работоспособный при криогенных температурах и обеспечивающий точность измерения температуры до 0,1 К. PE "Politekhperiodika", Book and Journal Publishers 2019-10-29 Article Article Peer-reviewed Article application/pdf https://www.tkea.com.ua/index.php/journal/article/view/TKEA2016.4-5.47 10.15222/TKEA2016.4-5.47 Technology and design in electronic equipment; No. 4–5 (2016): Tekhnologiya i konstruirovanie v elektronnoi apparature; 47-52 Технологія та конструювання в електронній апаратурі; № 4–5 (2016): Технология и конструирование в электронной аппаратуре; 47-52 3083-6549 3083-6530 uk https://www.tkea.com.ua/index.php/journal/article/view/TKEA2016.4-5.47/205 Copyright (c) 2016 A. A. Druzhinin, I. P. Ostrovsky, Yu. N. Khoverko, R. N. Koretsky http://creativecommons.org/licenses/by/4.0/ |
| institution |
Technology and design in electronic equipment |
| baseUrl_str |
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| datestamp_date |
2025-05-30T19:31:10Z |
| collection |
OJS |
| language |
Ukrainian |
| topic |
микрокристалл частота проводимость сенсор криогенная температура |
| spellingShingle |
микрокристалл частота проводимость сенсор криогенная температура Druzhinin, A. A. Ostrovsky, I. P. Khoverko, Yu. N. Koretsky, R. N. Исследование частотной зависимости проводимости нитевидных кристаллов кремния при криогенных температурах для создания сенсоров температуры на их основе |
| topic_facet |
microcrystal frequency conductivity sensor cryogenic temperature микрокристалл частота проводимость сенсор криогенная температура |
| format |
Article |
| author |
Druzhinin, A. A. Ostrovsky, I. P. Khoverko, Yu. N. Koretsky, R. N. |
| author_facet |
Druzhinin, A. A. Ostrovsky, I. P. Khoverko, Yu. N. Koretsky, R. N. |
| author_sort |
Druzhinin, A. A. |
| title |
Исследование частотной зависимости проводимости нитевидных кристаллов кремния при криогенных температурах для создания сенсоров температуры на их основе |
| title_short |
Исследование частотной зависимости проводимости нитевидных кристаллов кремния при криогенных температурах для создания сенсоров температуры на их основе |
| title_full |
Исследование частотной зависимости проводимости нитевидных кристаллов кремния при криогенных температурах для создания сенсоров температуры на их основе |
| title_fullStr |
Исследование частотной зависимости проводимости нитевидных кристаллов кремния при криогенных температурах для создания сенсоров температуры на их основе |
| title_full_unstemmed |
Исследование частотной зависимости проводимости нитевидных кристаллов кремния при криогенных температурах для создания сенсоров температуры на их основе |
| title_sort |
исследование частотной зависимости проводимости нитевидных кристаллов кремния при криогенных температурах для создания сенсоров температуры на их основе |
| title_alt |
A study of the frequency dependence of conductivity of silicon whiskers at cryogenic temperatures as basis for the temperature sensors |
| description |
Studies of low-temperature features of semiconductor silicon whisker conductivity play a significant role in the development of electronic devices, such as temperature sensors.The results of studies of the active component of impedance Z' for silicon whiskers obtained at cryogenic temperatures, indicating the increase of its value under temperature decreasing, and showing the frequency dependence in the range from 0 to 250 kHz. It was found that in temperature range 4.2–20 K at a frequency ωкр which can amount from 8 to 20 kHz, depending on resistivity and temperature, the hopping conduction with the participation of phonons is observed in whisker samples, resulting in a significant reduction of Z' value at frequencies up to 250 kHz. For example, at a temperature of 4.2 K for the sample with resistivity ρ300K=0.0168 Ohm • cm the frequency ωкр is equal to 8 kHz, and in frequency range up to 250 kHz the active component of impedance is reduced approximately by half. Such behavior of the frequency response for these samples is kept up to 20 K, whereas at 25 K the value of Z' is almost independent of frequency, and at higher temperatures with the increasing of frequency, it slightly increases. Reducing the resistivity of the samples leads to a narrowing of the temperature range, where the hopping conduction is observed, and at ρ300K= 0.0143 Ohm•cm it is observed only at a helium temperature.Offset of the frequency ωкр from 8 to 20 kHz at the hopping conduction beginning, depending on temperature and the value of resistivity for studied silicon crystals, can be attributed to the change of free charge carriers concentration in such samples, because it determines the effect of Coulomb gap on ωкр.Experimental study of low-temperature conductivity of silicon whiskers allowed proposing the temperature sensor operable at temperature range 4.2–100 K. The sensor works on alternating current, because it avoids the sell-heating of sensitive element and the occurrence of «parasitic» thermopower, which also affects the accuracy of temperature measurement. |
| publisher |
PE "Politekhperiodika", Book and Journal Publishers |
| publishDate |
2019 |
| url |
https://www.tkea.com.ua/index.php/journal/article/view/TKEA2016.4-5.47 |
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2025-09-24T17:30:35Z |
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2025-09-24T17:30:35Z |
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