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Radzhapov, Begjan Salievich
Statistics Math-Net.Ru
Total publications: 13
Scientific articles: 12

Number of views:
This page:236
Abstract pages:2105
Full texts:692
References:162

https://www.mathnet.ru/eng/person119492
List of publications on Google Scholar

Publications in Math-Net.Ru Citations
2020
1. S. A. Radzhapov, R. Kh. Rakhimov, B. S. Radzhapov, M. A. Zufarov, “Calculation of stages of the technological process of manufacture of PPD detectors using computer mathematical modeling and production of alpha radiometer on their basis”, Comp. nanotechnol., 7:2 (2020),  21–28  mathnet  elib 1
2019
2. S. A. Radzhapov, R. Kh. Rakhimov, B. S. Radzhapov, M. A. Zufarov, K. I. Vakhobov, “Development of silicon diffusion $n - p$-detectors of ionizing radiation”, Comp. nanotechnol., 6:3 (2019),  112–115  mathnet 1
3. S. A. Radzhapov, R. Kh. Rakhimov, B. S. Radzhapov, M. A. Zufarov, “Silicon-lithium $\Delta E$-detectors of alpha-radiation to the radiometer”, Comp. nanotechnol., 6:2 (2019),  157–159  mathnet  elib 1
4. S. A. Radzhapov, R. Kh. Rakhimov, B. S. Radzhapov, M. A. Zufarov, Sh. Sharifov, “Development of radometer based on silicon detectors with a big sensitive area”, Comp. nanotechnol., 6:1 (2019),  65–68  mathnet
2018
5. S. A. Radzhapov, R. Kh. Rakhimov, M. Dzhanklich, M. A. Zufarov, B. S. Radzhapov, “Semiconductor nuclear radiation detectors on the basis of heterojunction structures of Al-$\alpha$Ge-pSi-Au for measurement of low intensive ionizing radiations”, Comp. nanotechnol., 2018, no. 3,  65–67  mathnet
6. S. A. Radzhapov, B. S. Radzhapov, R. Kh. Rakhimov, “Features of the development of manufacturing technology for surface-barrier detectors of large diameter with a large working area sensitive for measuring the activity of natural isotopes”, Comp. nanotechnol., 2018, no. 1,  151–154  mathnet  elib
2017
7. 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  mathnet  elib
8. 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  mathnet  elib
9. 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  mathnet  elib 2
10. 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  mathnet  elib
2016
11. 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  mathnet  elib
12. 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  mathnet  elib 1
2022
13. S. A. Radzhapov, K. M. Nurboev, F. G. Mullagalieva, M. A. Zufarov, B. S. Radzhapov, K. E. Ergashev, “Development of silicon detectors and electronic units for radiometer alpha-, beta and gamma-radiation”, Comp. nanotechnol., 9:3 (2022),  45–52  mathnet 2

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