No. 2 |
Founded in 1994 |
Moscow 2004 |

Grishina N.F., Kreopalov V.I., Grishina V.Yu., Kreopalov D.V.
Use of an electron spiral electromagnetic model for the
explanation of conductivity properties. Part I. Treatment of arising
the conduction band electrons developed with using the spiral
electromagnetic model
| 5 | |

Pokhmelnykh L.A.
Magnetism as the manifestation of the dynamic component of central interaction of charges
| 11 | |

Pechatnikov Y.M.
Effects in the transition flow of rarefied gas | 19 | |

Lunin A.I., Teterin E.P.
Determining method of thermal properties of substances wth steady power line source
| 25 | |

Greenfield D.E., Monastyrsky M.A., Tarasov V.A. .
Urutskoev L.I., Filippov D.V. On the possibility of nuclear transformation in low-temperature plasma from the viewpoint of conservation laws
| 30 |

Zotova M.O., Rozenfel’d L.B., Vasichev B.N.
Numerical modeling the abberrations arising as a result of manufacturing defects of sextupole and octupole correctors
| 36 | |

Stepovich M.A., Samokhvalov A.A., Khokhlov A.G., Tchaikovsky M.M.
Approximation of beam’s electron energy loss in homogeneous semiconductors
| 39 | |

Bespalova O.V., Romanovsky E.A., Serkov M.V., Borisov A.M., Michurina V.P.,
Nevskaya O.S., Suminov I.V., Titova N.V., Apelfeld A.V.
Application of the 5-8 MeV protons backscattering regularities for the analysis of an oxide protective coatings structure
| 44 |

Dubinova I.D., Zhuravlyov S.S.
Creation of a homogeneous low-ionized plasma with a large volume in a high-frequency grill
| 51 | |

Zhukov A.A., Zhkova S.A., Tchetverov Yu.S., Korneeva G.A.
The effect of plasma chemical etching on the properties of thin polyimide coatings differing by the chemical composition and molecular weight
| 53 | |

Luk’yanchikov G.S.
Nonthermal reactive force arising under electrical discharge in the system of emitting electrodes
| 59 | |

Berdiyorov G.R., Kunishev U.S., Khaydarov R.T., Khalmuratov M.G.
Interation of laser-produced W / Mo plasmas with the surface of Mo
| 63 | |

Fedorov M.V., Yakovlev M.A.
The physical model of generation of the high energy photoelectrons by picosecond laser pulses
| 67 |

Drapak S.I., Orlotsky V.B., Kovalyuk Z.D., Fotiy V.D.
Propolis – silicium heterocontact
| 73 | |

Altukhov A.A., Gavrilov V.V., Eremin V.V., Kireev V.A.
Ultra-violet range photodetectors on natural diamond
| 76 | |

Diakonov L.I., Susov E.V., Chekanova G.V.
Simple computer model of IR-photoconductor
| 82 | |

Astakhov V.P., Gribanov A.A., Evstafieva N.I., Karpov V.V.,
Kozyrev M.E., Kuznetsov N.S., Romanov O.G., Chivanov A.N.
Development of a basic process for making the photoreceivers on the mercury-doped germanium base
| 87 | |

Kerimova T.G., Sultanova A.G., Mamedov Z.G., Dzhafarova E.A.
Photoelectric properties of
ZnGa2Se4
| 93 |

Omelajev A.I., Philippov V.L.
Influence of the environment on choosing the operating wavelength regions of IR radiometers
| 95 | |

Dirochka A.I., Sviridov A.N.
Influence of the environment performances on utmost parameters of the observing thermal imager
| 101 | |

Semin V.A.
To the development of the calculating methods for optical systems
| 108 | |

Philippov V.L., Tantashev M.V.
Optical-geophysical atmospheric model
“Troposphere-2000”
| 114 |