##plugins.themes.academic_pro.article.sidebar##

Download
pdf
Statistic
Read Counter : 86 Download : 59

##plugins.themes.academic_pro.article.main##

Abstract

This paper demonstrates the possibility of manufacturing multifunction sensors based on the influence of external factors on the auto-oscillating current parameters in a nanocluster silicon material consisting of a margens atom

Keywords

nanocluster silicon multi-charged center current self-oscillations

##plugins.themes.academic_pro.article.details##

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

How to Cite
Kh.U. Kamalov, G.S. Nurimbetova, T.U. Kamalov, R.M.Asetullaeva, & D.G.Bekchanov. (2022). Possibilities of Creating Multifunction Sensors Based on Auto-Oscillating Current in Silicon. Texas Journal of Engineering and Technology, 9, 125–130. Retrieved from https://zienjournals.com/index.php/tjet/article/view/2017

References

  1. A.A. Druzhinin, I.P. Ostrovsky, S.N. Matvienko, A.M. Wuyczyk. Multifunctional pressure and temperature sensor based on SiGe solid solutions. Technology and design in electronic equipment. 2005. No. 6. Pp. 24-26
  2. A.B. Sadullaev., Highly sensitive magnetic field sensors based on highly compensated silicon, operating in the presence of background illumination. UNIVERSUM technical sciences 2018. No. 4 (49). S.1-4.
  3. Bakhadyrkhanov M.K., Mavlonov G.Kh., Isamov S.B., Iliev Kh.M., Ayupov KS, Saparniyazova Z.M., Tachilin S.A. Electrophysical properties of silicon doped with manganese by low-temperature diffusion. Inorganic materials. 2011.T. 47.V. 5.P. 545-550.
  4. Paul Shewmon. Diffusion in Solids Second Edition 2016. pp.246
  5. Bakhadirkhanov MK, Zikrillaev NF, Isamov SB, Koveshnikov SV, // Photoelectric phenomena in silicon with multiply charged nanoclusters Monograph, TSTU. 2017. - S. 279.
  6. Bakhadyrkhanov M.K., Ayupov K.S., Iliev H.M., Mavlonov G.Kh., Sattarov O.E. Influence of the electric field, illumination and temperature on the negative magnetoresistance of silicon doped according to the "low-temperature diffusion" method. Letters to ZhTF. 2010. T. 36. No. 16. S. 11-18.
  7. Bakhadyrkhanov MK, Zikrillaev NF, Isamov SB, Kamalov Kh.U., Koveshnikov SV, Silicon-based photodetectors for the spectral region 310 µm with frequency output with nanoclusters of manganese atoms ... // Devices. 2017. No. 6 (204). P. 12-15.
  8. Bakhadyrkhanov M.K., Zikrillaev N.F., Isamov S.B., Kamalov Kh.U., Koveshnikov S.V., Khodzhanepesov K.A. Solid-state infra-low frequency generator with controlled parameters. // Devices. 2018. No. 3 (213). P. 1-5.
  9. Назирова Р. М. и др. Интенсивная технология NPK-удобрений на основе мытого сушёного концентрата центральных Кызылкумов //Проблемы современной науки и образования. – 2019. – №. 2 (135). – С. 6-11.
  10. Назирова Р. М. и др. Комплексные удобрения на основе местного сырья //Проблемы науки. – 2019. – №. 11 (47). – С. 25-28.
  11. Назирова Р. и др. Интенсификация процесса получения сложных удобрений из местного сырья. – 2019.
  12. Назирова Р. М. и др. Изучение физико-химических свойств добавок при производстве новых видов сложных стабилизированных удобрений //Universum: технические науки. – 2020. – №. 5-2 (74). – С. 69-73.
  13. Nazirova, R. M., et al. "Investigation of solubility kinetics and interaction of stabilizing additive in production of complex fertilizers based on granular nitrate and stabilizing additives." Academicia an international multidisciplionary research journal 10.5 (2020): 657-664.