Year: 2019 Volume: 12 Issue: 1
Pages: 170
113 5864
Publication schedule
  • №3 September 2019
    Submission deadline: 20 June 2019
  • №4 December 2019
    Submission deadline: 1 October 2019

The application of barium fluoride luminescence: сhallenges and prospects

Condensed matter physics
  • 8
  • 506
  • Pages: 11-27

High-magnetostriction Laves-phase alloy of the samarium-iron system: the structure and phase transformations

Condensed matter physics
  • 11
  • 501
  • Pages: 28-38

Method of calculation of turbulent Prandtl number for the SST turbulence model

Simulation of physical processes
  • 7
  • 396
  • Pages: 39-49

Semi-bounded string’s vibrations initiated by the boundary regime

Simulation of physical processes
  • 4
  • 466
  • Pages: 50-60

The ultracold neutron supersource at the WWR-M reactor: a biological shielding design

Experimental technique and devices
  • 5
  • 421
  • Pages: 61-72

The low-temperature sub-system of the ultracold neutron supersource at the WWR-M reactor: A heat-hydraulic design study

Experimental technique and devices
  • 8
  • 426
  • Pages: 73-86

Human visual model-based technology: measuring the geometric parameters of microinstrument

Experimental technique and devices
  • 6
  • 467
  • Pages: 87-95

Two-electrode design for electrostatic ion trap integrable in polar coordinates

Physical electronics
  • 5
  • 448
  • Pages: 96-104

The water vapor conversion during the interaction between an evaporated hydrogen fluoride solution and carbon in the filtration combustion mode

Physical materials technology
  • 9
  • 468
  • Pages: 105-116

Recording typhoons’ infrasonic disturbances by laser strainmeters

Atmosphere physics
  • 8
  • 389
  • Pages: 117-127

A posteriori error estimate for Reissner – Mindlin plates: verification of implementations and numerical testing

Mathematics
  • 12
  • 463
  • Pages: 128-141

The damping of the distributed system vibrations using piezoelectric transducers: simulation

Mechanics
  • 8
  • 452
  • Pages: 142-155

A quasistatic approach to the thermoelasticity problem of rotating bodies

Mechanics
  • 11
  • 461
  • Pages: 156-166