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Publications in Math-Net.Ru |
Citations |
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2023 |
1. |
M. A. Askarov, E. Z. Imamov, R. A. Muminov, “Electrophysical properties of a solar cell with non-traditional contact structures”, Comp. nanotechnol., 10:4 (2023), 110–121 |
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2. |
R. A. Muminov, E. Z. Imamov, R. Kh. Rakhimov, M. A. Askarov, “Factors of efficient generation of electricity in a solar cell with nanohetero junctions”, Comp. nanotechnol., 10:1 (2023), 119–127 ; Computational nanotechnology, 2023, no. 1, 119–122 |
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2022 |
3. |
E. Z. Imamov, R. A. Muminov, R. Kh. Rakhimov, Kh. N. Karimov, M. A. Askarov, “Modeling of the electrical properties of a solar cell with many nano-hetero junctions”, Comp. nanotechnol., 9:4 (2022), 70–77 |
4. |
Sh. B. Utamuradova, R. A. Muminov, V. G. Dyskin, O. F. Tukfatullin, “A program for calculating the projective range and straggling of ions in a solidusing the approximation of V.V. Yudin”, Comp. nanotechnol., 9:4 (2022), 11–16 |
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2021 |
5. |
E. Z. Imamov, R. A. Muminov, R. Kh. Rakhimov, “Analysis of the efficiency of a solar cell with nano-dimensional hetero transitions”, Comp. nanotechnol., 8:4 (2021), 42–50 |
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2020 |
6. |
R. A. Muminov, Y. Q. Toshmurodov, G. J. Ergashev, M. O. Yavqochdiyev, “Mathematical modeling of the diffusion process of a semiconductor detector”, Comp. nanotechnol., 7:4 (2020), 68–71 |
7. |
E. Z. Imamov, R. A. Muminov, R. Kh. Rakhimov, “Mathematical modeling of optimal parameters of atmospheric influence on the properties of the solar module”, Comp. nanotechnol., 7:2 (2020), 58–63 |
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2019 |
8. |
R. A. Muminov, A. M. Rasulov, N. I. Ibragimov, “Computer modeling thin film growth on the surface by low energy cluster deposition”, Comp. nanotechnol., 6:2 (2019), 160–163 |
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2018 |
9. |
T. A. Djalalov, E. Z. Imamov, R. A. Muminov, H. Sabirov, Sh. Sh. Atoev, “Solar elements based on noncrystallic silicon with nanostructured impacts”, Comp. nanotechnol., 2018, no. 3, 85–90 |
10. |
T. A. Djalalov, E. Z. Imamov, R. A. Muminov, R. Kh. Rakhimov, “Expansion of the effective absorption spectrum in solar cells with nanoinclusions”, Comp. nanotechnol., 2018, no. 1, 155–157 |
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2017 |
11. |
R. A. Muminov, S. A. Radzhapov, Y. Q. Toshmurodov, B. S. Radzhapov, “Coordinate-sensitive detectors of ionizing radiation on the basis of the Si (Li) $p-i-n$ large-dimension structures”, Comp. nanotechnol., 2017, no. 3, 29–32 |
12. |
R. A. Muminov, S. A. Radzhapov, Y. Q. Toshmurodov, B. S. Radzhapov, “Detectors of X-ray and gamma radiation on the basis of Al-nGe-pSi-Au structure”, Comp. nanotechnol., 2017, no. 3, 27–28 |
13. |
M. A. Abdukadirov, N. A. Axmedova, A. S. Ganiyev, R. A. Muminov, “Thermal properties of GaAs/ALGaAs of solar elements «transparent» for the long-wave terrace of the main absorption strip”, Comp. nanotechnol., 2017, no. 3, 22–23 |
14. |
T. A. Djalalov, E. Z. Imamov, R. A. Muminov, R. Kh. Rakhimov, “Analysis of the role of nano-objects in the cheaper silicon solar cells”, Comp. nanotechnol., 2017, no. 3, 14–17 |
15. |
R. Kh. Rakhimov, R. A. Muminov, S. A. Radzhapov, Yu. S. Pindurin, B. S. Radzhapov, “The use of ergonometry based on silicon surface barrier detectors to monitor radon”, Comp. nanotechnol., 2017, no. 2, 85–88 |
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16. |
E. Z. Imamov, T. A. Djalalov, R. A. Muminov, R. Kh. Rakhimov, “Unique opportunity to create cheap but effective silicon solar cells”, Comp. nanotechnol., 2017, no. 1, 61–64 |
17. |
E. Z. Imamov, T. A. Djalalov, R. A. Muminov, R. Kh. Rakhimov, “Unique opportunity to create cheap but effective silicon solar cells”, Comp. nanotechnol., 2017, no. 1, 56–60 |
18. |
R. A. Muminov, S. A. Radzhapov, B. S. Radzhapov, “Examination and assessment of electrophysical and radiometric characteristics of the Si(Li)p-i-n-photodetecting plasticscintillation system”, Comp. nanotechnol., 2017, no. 1, 54–55 |
19. |
M. A. Abdukadirov, Z. T. Azamatov, N. A. Axmedova, A. S. Ganiyev, R. A. Muminov, “Properties of $\mathrm{GaAs/AlGaAs}$ heterophototransformators with holographic concentrators”, Comp. nanotechnol., 2017, no. 1, 52–53 |
20. |
M. A. Abdukadirov, Z. T. Azamatov, N. A. Axmedova, A. S. Ganiyev, R. A. Muminov, “Properties of $\mathrm{GaAs/AlGaAs}$ heterophototransformators with holographic concentrators”, Comp. nanotechnol., 2017, no. 1, 50–51 |
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2016 |
21. |
R. A. Muminov, S. A. Radzhapov, B. S. Radzhapov, R. Kh. Rakhimov, “The ionizing radiation detectors based on neutron-doped silicon”, Comp. nanotechnol., 2016, no. 4, 136–137 |
22. |
E. Z. Imamov, T. A. Djalalov, R. A. Muminov, R. Kh. Rakhimov, “The difference between the contact structure with nanosize inclusions from the semiconductor photodiodes”, Comp. nanotechnol., 2016, no. 3, 203–207 |
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23. |
E. Z. Imamov, T. A. Djalalov, R. A. Muminov, R. Kh. Rakhimov, “The difference between the contact structure with nanosize inclusions from the semiconductor photodiodes”, Comp. nanotechnol., 2016, no. 3, 196–202 |
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24. |
R. A. Muminov, “Rakhimov Rustam Khakimovich”, Comp. nanotechnol., 2016, no. 2, 7–8 |
25. |
R. A. Muminov, S. A. Radzhapov, Y. Q. Toshmurodov, B. S. Radzhapov, “Technological formation of large-size Si(Li) p-i-n radiation detectors”, Comp. nanotechnol., 2016, no. 1, 62–66 |
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2015 |
26. |
E. Z. Imamov, T. A. Djalalov, R. A. Muminov, R. Kh. Rakhimov, “The teoretical model of new contact structure «nanoobject-semiconductor»”, Comp. nanotechnol., 2015, no. 4, 51–63 |
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1986 |
27. |
B. N. Zaveryukhin, V. D. Krevchik, R. A. Muminov, A. Sh. Shamagdiev, “Peculiarities of Ultrasound Effect on Si$\langle$Li$\rangle$ Detectors with Nonuniform Electric Field Distribution”, Fizika i Tekhnika Poluprovodnikov, 20:3 (1986), 525–528 |
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1984 |
28. |
A. G. Gaibov, B. N. Zaveryukhin, V. D. Krevchik, R. A. Muminov, O. Nigmanov, A. Sh. Shamagdiev, “ACOUSTOSTIMULATION PROCESSES IN SI(LI)-P-I-N DETECTORS”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 10:10 (1984), 616–620 |
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1978 |
29. |
S. A. Azimov, Yu. A. Katulevskii, R. A. Muminov, A. G. Rakhimova, “Experimental observation of pinch effect in silicon”, Dokl. Akad. Nauk SSSR, 242:5 (1978), 1050–1051 |
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1975 |
30. |
S. A. Azimov, Yu. A. Katulevskii, R. A. Muminov, “Investigation of specificities of the interaction of germanium $(p-n-n^+)$-structure under conditions of current pinching with incident U. H. F. radiation of santimeter range”, Dokl. Akad. Nauk SSSR, 220:4 (1975), 809–810 |
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