RUS  ENG
Full version
PEOPLE

Rakhimov Rustam Khakimovich

Publications in Math-Net.Ru

  1. Pulsed tunnel effect: new perspectives for controlling superconducting devices

    Comp. nanotechnol., 11:3 (2024),  161–176
  2. Fractals in quantum mechanics: from theory to practical applications

    Comp. nanotechnol., 11:3 (2024),  125–160
  3. Interrelation and interpretation of effects in quantum mechanics and classical physics

    Comp. nanotechnol., 11:3 (2024),  98–124
  4. Potential of pulsed tunnel effect (PTE) to overcome technical barriers of quantum computers

    Comp. nanotechnol., 11:3 (2024),  11–33
  5. Pulse tunnel effect: prospects for scaling photocatalysts

    Comp. nanotechnol., 11:2 (2024),  174–190
  6. Features of the ITE-based polymerization process

    Comp. nanotechnol., 11:2 (2024),  157–173
  7. Investigation of the influence of pulsed radiation generated by functional ceramics based on the principle of PTE on the characteristics of the Cr$_{2}$O$_{3}$-SiO$_{2}$-Fe$_{2}$O$_{3}$-CaO-Al$_{2}$O$_{3}$-MgO-CuO system

    Comp. nanotechnol., 11:2 (2024),  145–156
  8. Pulse tunneling effect. Features interaction with substance

    Comp. nanotechnol., 11:2 (2024),  115–144
  9. Productive methods for increasing the efficiency of intermediate reactions in the synthesis of functional ceramics

    Comp. nanotechnol., 11:1 (2024),  224–234
  10. New approaches to the synthesis of functional materials with specified properties under the influence of concentrated radiation and pulse tunnel effect

    Comp. nanotechnol., 11:1 (2024),  214–223
  11. Pulse tunnel effect: fundamentals and prospects for application

    Comp. nanotechnol., 11:1 (2024),  193–213
  12. Solar drying of fruit and vegetables using polyethylene-ceramic composite

    Comp. nanotechnol., 10:4 (2023),  103–109
  13. A possible mechanism of the optical quantum tunneling effect in photocatalysts based on nanostructured functional ceramics

    Comp. nanotechnol., 10:3 (2023),  26–34
  14. Prospects of solar energy: the role of modern solar technologies in the production of hydrogen

    Comp. nanotechnol., 10:3 (2023),  11–25
  15. Prospects for the use of film-ceramic photocatalysts for the cultivation of microalgae

    Comp. nanotechnol., 10:2 (2023),  60–69
  16. Factors of efficient generation of electricity in a solar cell with nanohetero junctions

    Comp. nanotechnol., 10:1 (2023),  119–127
  17. Increasing the reliability of earthquake prediction

    Comp. nanotechnol., 10:1 (2023),  112–118
  18. Modeling of the electrical properties of a solar cell with many nano-hetero junctions

    Comp. nanotechnol., 9:4 (2022),  70–77
  19. Development of a method for obtaining ceramic nanocomposites using sol-gel technology elements to create inclusions of amorphous phases with a composition similar to the target crystalline ceramic matrix

    Comp. nanotechnol., 9:3 (2022),  60–67
  20. Results of the application of functional ceramics in composition of the Fe$_{3}$O$_{4}$-CaO$_{2}$-TiO$_{2}$ slag system for welding electrode coatings

    Comp. nanotechnol., 9:3 (2022),  53–59
  21. Capabilities of polyethylene-ceramic composite in comparison with polyethylene film in real operation conditions

    Comp. nanotechnol., 9:2 (2022),  67–72
  22. Investigation of a film-ceramic composite in a solar cell

    Comp. nanotechnol., 9:1 (2022),  132–138
  23. Analysis of the efficiency of a solar cell with nano-dimensional hetero transitions

    Comp. nanotechnol., 8:4 (2021),  42–50
  24. Vibrations of an infinite piece-homogeneous two-layer plate under the influence of normal load

    Comp. nanotechnol., 8:4 (2021),  28–33
  25. Application of functional ceramics in sterilization processes

    Comp. nanotechnol., 8:1 (2021),  84–94
  26. The compelled fluctuations of a rectangular two-layer piecewise-homogeneous plate of a constant thickness

    Comp. nanotechnol., 7:4 (2020),  25–30
  27. Application of solar dryers for drying agricultural products and optimization of drying time

    Comp. nanotechnol., 7:4 (2020),  21–24
  28. The mechanism of anomaly of charged particles before the earthquake

    Comp. nanotechnol., 7:3 (2020),  72–76
  29. Mathematical modelling of mountain shocks and earthquakes related to volcanism

    Comp. nanotechnol., 7:3 (2020),  57–61
  30. Analysis of the general equations of the transverse vibration of a piecewise uniform viscoelastic plate

    Comp. nanotechnol., 7:3 (2020),  52–56
  31. Efficiency of drying and calcining of welding electrodes in furnaces using radiation from nanostructured functional ceramics (NFC)

    Comp. nanotechnol., 7:2 (2020),  64–70
  32. Mathematical modeling of optimal parameters of atmospheric influence on the properties of the solar module

    Comp. nanotechnol., 7:2 (2020),  58–63
  33. 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
  34. A new method for drying and calcining welding electrodes using emitters made of functional ceramic

    Comp. nanotechnol., 7:1 (2020),  44–51
  35. Endangered health - opportunity with efficient innovations

    Comp. nanotechnol., 7:1 (2020),  15–18
  36. Endangered health - opportunity with efficient innovations

    Comp. nanotechnol., 7:1 (2020),  11–14
  37. Determination of the density value specifically at the focal point of the mirror concentrating system

    Comp. nanotechnol., 6:4 (2019),  49–55
  38. Prospects of application of polymer-ceramic composite in the production of microalgae

    Comp. nanotechnol., 6:4 (2019),  44–48
  39. Development of silicon diffusion $n - p$-detectors of ionizing radiation

    Comp. nanotechnol., 6:3 (2019),  112–115
  40. Calculation of the optimal size of the reflecting element large compound facet concentrators

    Comp. nanotechnol., 6:3 (2019),  100–103
  41. Study of the influence of the spectral composition of ir radiation on the sedimentation rate of complex compounds

    Comp. nanotechnol., 6:3 (2019),  96–99
  42. Silicon-lithium $\Delta E$-detectors of alpha-radiation to the radiometer

    Comp. nanotechnol., 6:2 (2019),  157–159
  43. The main stages of development, creation of mirror-concentrating systems on the example of a large solar furnace

    Comp. nanotechnol., 6:2 (2019),  151–156
  44. A big solar oven

    Comp. nanotechnol., 6:2 (2019),  141–150
  45. Generation and properties of infrared radiation

    Comp. nanotechnol., 6:2 (2019),  95–100
  46. Method of calculating geometric and energy parameters of the focal spot from individual zones of the concentrator with complex midel configuration

    Comp. nanotechnol., 6:1 (2019),  69–74
  47. Development of radometer based on silicon detectors with a big sensitive area

    Comp. nanotechnol., 6:1 (2019),  65–68
  48. Comparative frequency characteristics of vibrations generated by the functional ceramics and cavitation generator

    Comp. nanotechnol., 2018, no. 4,  57–70
  49. Development of highly efficient equipment based on functional ceramics synthesized in a solar furnace with a capacity of 1 mw

    Comp. nanotechnol., 2018, no. 3,  91–100
  50. Nuclear-radioactive reactions in earth crust the generator of earthquake harbingers

    Comp. nanotechnol., 2018, no. 3,  68–72
  51. 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
  52. Features of synthesis of functional ceramics with a complex of the set properties by a radiation method. Part 3

    Comp. nanotechnol., 2018, no. 2,  76–82
  53. Vibrations of two-layer plates of constant thickness

    Comp. nanotechnol., 2018, no. 2,  52–67
  54. Regressions models for forecasting of earthquakes

    Comp. nanotechnol., 2018, no. 2,  40–45
  55. Expansion of the effective absorption spectrum in solar cells with nanoinclusions

    Comp. nanotechnol., 2018, no. 1,  155–157
  56. 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
  57. Application of functional ceramics for drying the paint, polymerization of high-molecular compounds and vulcanization of rubbers

    Comp. nanotechnol., 2017, no. 4,  60–62
  58. Determination of the maximum emissivity ceramic depending on the concentration of the binder

    Comp. nanotechnol., 2017, no. 4,  36–40
  59. Phonon mechanism of transformation in ceramic materials

    Comp. nanotechnol., 2017, no. 4,  21–35
  60. The frequency characteristic of the oscillator resonant oscillations

    Comp. nanotechnol., 2017, no. 4,  6–13
  61. Functional ceramics and its application.a new look at an old disease. Part 1. Diabetes, obesity, hypertension

    Comp. nanotechnol., 2017, no. 3,  64–90
  62. The results of experimental studies of the emitters based on functional ceramics K-series

    Comp. nanotechnol., 2017, no. 3,  59–63
  63. Analysis of the role of nano-objects in the cheaper silicon solar cells

    Comp. nanotechnol., 2017, no. 3,  14–17
  64. Analysis of some linear-electrical filters in opto-electric of the telecommunication networks

    Comp. nanotechnol., 2017, no. 2,  97–101
  65. Innovative hydrometallurgical technologies of processing of mineral raw materials

    Comp. nanotechnol., 2017, no. 2,  89–93
  66. The use of ergonometry based on silicon surface barrier detectors to monitor radon

    Comp. nanotechnol., 2017, no. 2,  85–88
  67. Safety of storage of sulfuric acid. Part 2

    Comp. nanotechnol., 2017, no. 2,  62–79
  68. The method of calculating the optimum shape of the distribution of solar radiation power density for the uniform excitation of the active elements of lasers predetermined shape

    Comp. nanotechnol., 2017, no. 1,  135–142
  69. Resonance therapy. Ceramic materials and methods of their application in medicine

    Comp. nanotechnol., 2017, no. 1,  75–134
  70. Unique opportunity to create cheap but effective silicon solar cells

    Comp. nanotechnol., 2017, no. 1,  61–64
  71. Unique opportunity to create cheap but effective silicon solar cells

    Comp. nanotechnol., 2017, no. 1,  56–60
  72. The automated computer system of measurement of productivity of solar water heaters from portion preparation of hot water

    Comp. nanotechnol., 2017, no. 1,  23–26
  73. The ionizing radiation detectors based on neutron-doped silicon

    Comp. nanotechnol., 2016, no. 4,  136–137
  74. Features of synthesis of functional ceramics with the complex of the set properties by the radiation method. Part 8. Bases of the theory of resonant therapy by R. Rakhimov's (INFRA R METHOD) method

    Comp. nanotechnol., 2016, no. 4,  32–135
  75. Development of ceramic coatings and application of their infrared radiation

    Comp. nanotechnol., 2016, no. 4,  6–9
  76. The difference between the contact structure with nanosize inclusions from the semiconductor photodiodes

    Comp. nanotechnol., 2016, no. 3,  203–207
  77. The difference between the contact structure with nanosize inclusions from the semiconductor photodiodes

    Comp. nanotechnol., 2016, no. 3,  196–202
  78. Safety of storage of sulfuric acid

    Comp. nanotechnol., 2016, no. 3,  183–195
  79. Features of synthesis of functional ceramics with the complex of the set properties by the radiation method. Part 7. Nature of electromagnetic radiation

    Comp. nanotechnol., 2016, no. 3,  35–182
  80. Features of synthesis of functional ceramics with a complex of the set properties by a radiation method. Part 6

    Comp. nanotechnol., 2016, no. 3,  6–34
  81. Possibility of use of functional ceramics for synthesis of complex connections

    Comp. nanotechnol., 2016, no. 2,  129–131
  82. Working methods and stand for determination of service materials and products to solar radiiant flux

    Comp. nanotechnol., 2016, no. 2,  94–100
  83. Features of synthesis of functional ceramics with a complex of the set properties by a radiation method. Part 5. Mechanism of generation of impulses functional ceramics

    Comp. nanotechnol., 2016, no. 2,  81–93
  84. Features of synthesis of functional ceramics with a complex of the set properties by a radiation method. Part 4

    Comp. nanotechnol., 2016, no. 2,  77–80
  85. Features of synthesis of functional ceramics with a complex of the set properties by a radiation method. Part 3

    Comp. nanotechnol., 2016, no. 2,  66–76
  86. Features of synthesis of functional ceramics with a complex of the set properties by a radiation method. Part 2

    Comp. nanotechnol., 2016, no. 2,  28–65
  87. Features of synthesis of functional ceramics with a complex of the set properties by a radiation method. Part 1

    Comp. nanotechnol., 2016, no. 2,  9–27
  88. Recource saving and energy efficient technology of the production alumina from secondary kaolin with Angren deposi

    Comp. nanotechnol., 2016, no. 1,  45–51
  89. Possibilities of use of ceramic materials in power- and resource-saving

    Comp. nanotechnol., 2016, no. 1,  35–39
  90. The teoretical model of new contact structure «nanoobject-semiconductor»

    Comp. nanotechnol., 2015, no. 4,  51–63
  91. Development of the equipment with use of the functional ceramics synthesized on the Big Solar Furnace

    Comp. nanotechnol., 2015, no. 3,  11–25

  92. Investigation of the properties of functional ceramics synthetized by the modified carbonate method

    Comp. nanotechnol., 10:3 (2023),  130–143


© Steklov Math. Inst. of RAS, 2025