ОСОБЕННОСТИ АВТОКОЛЕБАТЕЛЬНЫХ ПРОЦЕССОВ В СИЛЬНОКОМПЕНСИРОВАННОМ КРЕМНИИ С НАНОКЛАСТЕРАМИ ПРИМЕСНЫХ АТОМОВ

Zikrillaev Nurilla Fatxullaevich; Tursunov O

doi:doi.org/10.47100/conference_physics/S2_12

300

Jurnal nomi
Nashr soni
Ko'rishlar soni 300

Internet havola

DOIdoi.org/10.47100/conference_physics/S2_12

UzSCI tizimida yaratilgan sana 14-08-2020

O'qishlar soni 176

Nashr sanasi

Asosiy tilO'zbek

Sahifalar80-85

Kalit so'z

Русский

Исследование особенностей перехода автоколебаний тока от одного типа к другому в сильнокомпенсированном кремния, легированного примесними атомам марганца, цинка и серы вызывает большой интерес с точки зрения изучения как самих механизмов автоколебаний тока, так и физики неравновесных процессов. Для объяснения механизма автоколебаний тока в сильнокомпенсированном кремния с учетом многозарядности нано кластеров атомов предложена модель сильнокомпенсированного полупроводника. Установлено, что предложенная модель удовлетворительно соответствует экспериментальным результатам.

Kalit so'z

диффузия

амплитуда

частота

кремний

марганец

автоколебания

цинк и сера

электрические параметры

природа возбуждения

English

The study of the features of the transition of current self-oscillations from one type to another in highly compensated silicon doped with impurity atoms of manganese, zinc and sulfur is of great interest from the point of view of studying both the mechanisms of current self-oscillations and the physics of nonequilibrium processes. To explain the mechanism of self-oscillations of current in highly compensated silicon, taking into account the multicharging of atomic clusters, a highly compensated semiconductor model is proposed. It was established that the proposed model satisfactorily corresponds to the experimental results

Kalit so'z

frequency

diffusion

amplitude

silicon

manganese

self-oscillations

zinc and sulfur

electrical parameters

nature of excitation

№ Muallifning F.I.Sh. Lavozimi Tashkilot nomi

1 Zikrillaev N.F.

2 Tursunov O..

№ Havola nomi

1 M.K.Bahadirkhanov., S.A.Valiev., N.F.Zikrillaev., S.V.Koveshnikov., E.B.Saitov., S.A.Tachilin. Silicon-based solar cells with clusters of nickel atoms// Solar technology №4, pp. 28-32, 2016.

2 N.F.Zikrillaev., E.B.Saitov. Silicon-based photocells with Schottkymicrobarriers // Bulletin of the Turin Polytechnic University, 31-33 s, 2014

3 E.Saitov. Study of Quantitative and Qualitative Characteristics of Nickel Clusters and Semiconductor Structures. Journal of Materials Science and Chemical Engineering. №4 pp. 30-35, 2016.

4 M.K.Bakhadyrkhanov., A.Sh.Mavlyanov., U.Kh.Sodikov., and M.K.Khakkulov. Silicon with binary unit cells as a novel class of materials for future photoener- getics, Applied Solar Energy, vol. 51, no. 4, pp. 258-261, 2015.

5 B.A.Abdurakhmanov., M.K.Bakhadirkhanov., K.S.Ayupov., H.M.Iliyev., E.B.Saitov., A.Mavlyanov., H.U.Kamalov. Formation of Clusters of Impurity Atoms of Nickel in Silicon and Controlling Their Parameters// Nanoscience and Nanotechnology. Vol.4. №2. pp. 23-26, 2014.

6 M.K.Bakhadyrhanov., U.X.Sodikov., D.Melibayev., T.Wumaier., S.V.Koveshnikov., K.A.Khodjanepesov., J.Zhan. Silicon with Clusters of Impurity Atoms as a Novel Material for Optoelectronics and Photovoltaic Energetics// Journal of Materials Science and Chemical Engineering. Vol. 6. pp.180-190, 2018.

7 Javoxir Toshov, Elyor Saitov. Portable autonomous solar power plant for individual use// E3S Web of Conferenccs 139, 01087, pp. 1-4, RSES 2019.

8 E.B.Saitov. Technology of manufacturing solar cells with clusters of Ni atoms// Asian Journal of Multidimensional Research (AJMR), 8, No.3, pp. 494-499, 2019.

9 Zikrillayev Nurullo and Saitov Elyor. Silicon materials -the future of photovoltaics// LAP LAMBERT Academic Publishing (2020-01-06) - ISBN-13: 978- 620-0-50311-4. pp.94, 2020.

Kutilmoqda

№	Havola nomi
1	M.K.Bahadirkhanov., S.A.Valiev., N.F.Zikrillaev., S.V.Koveshnikov., E.B.Saitov., S.A.Tachilin. Silicon-based solar cells with clusters of nickel atoms// Solar technology №4, pp. 28-32, 2016.
2	N.F.Zikrillaev., E.B.Saitov. Silicon-based photocells with Schottkymicrobarriers // Bulletin of the Turin Polytechnic University, 31-33 s, 2014
3	E.Saitov. Study of Quantitative and Qualitative Characteristics of Nickel Clusters and Semiconductor Structures. Journal of Materials Science and Chemical Engineering. №4 pp. 30-35, 2016.
4	M.K.Bakhadyrkhanov., A.Sh.Mavlyanov., U.Kh.Sodikov., and M.K.Khakkulov. Silicon with binary unit cells as a novel class of materials for future photoener- getics, Applied Solar Energy, vol. 51, no. 4, pp. 258-261, 2015.
5	B.A.Abdurakhmanov., M.K.Bakhadirkhanov., K.S.Ayupov., H.M.Iliyev., E.B.Saitov., A.Mavlyanov., H.U.Kamalov. Formation of Clusters of Impurity Atoms of Nickel in Silicon and Controlling Their Parameters// Nanoscience and Nanotechnology. Vol.4. №2. pp. 23-26, 2014.
6	M.K.Bakhadyrhanov., U.X.Sodikov., D.Melibayev., T.Wumaier., S.V.Koveshnikov., K.A.Khodjanepesov., J.Zhan. Silicon with Clusters of Impurity Atoms as a Novel Material for Optoelectronics and Photovoltaic Energetics// Journal of Materials Science and Chemical Engineering. Vol. 6. pp.180-190, 2018.
7	Javoxir Toshov, Elyor Saitov. Portable autonomous solar power plant for individual use// E3S Web of Conferenccs 139, 01087, pp. 1-4, RSES 2019.
8	E.B.Saitov. Technology of manufacturing solar cells with clusters of Ni atoms// Asian Journal of Multidimensional Research (AJMR), 8, No.3, pp. 494-499, 2019.
9	Zikrillayev Nurullo and Saitov Elyor. Silicon materials -the future of photovoltaics// LAP LAMBERT Academic Publishing (2020-01-06) - ISBN-13: 978- 620-0-50311-4. pp.94, 2020.