nalyzing possibilities in using the remote optical methods to measure the carbon dioxide concentration
Authors: Kosterova A.P. | Published: 17.07.2024 |
Published in issue: #3(92)/2024 | |
DOI: DOI: | |
Category: Physics | Chapter: Instrumentation and Methods of Experimental Physics | |
Keywords: carbon dioxide, greenhouse gases, optical methods, spectrum, optical density, lidar, infrared tunable laser, diode laser with distributed feedback, correlation |
Active impact force sensor structurally similar to the magnetoelastic transducers
Authors: Dolgikh E.S., Drozdov A.P., Lavrushin O.M., Shpilkovskiy P.V. | Published: 06.12.2023 |
Published in issue: #10(87)/2023 | |
DOI: DOI: 10.18698/2541-8009-2023-10-943 | |
Category: Physics | Chapter: Instrumentation and Methods of Experimental Physics | |
Keywords: measurement, metrology, deformation, active impact forces, magnetoelastic transducer, dynamic calibration, load characteristics, Hertz problem |
Investigation of the ferromagnet behavior exposed to dynamic deformation on the 44NXTU invar example
Authors: Dolgikh E.S., Kapitanskiy E.T., Lavrushin O.M., Shpilkovskiy P.V. | Published: 12.10.2023 |
Published in issue: #8(85)/2023 | |
DOI: DOI: 10.18698/2541-8009-2023-8-936 | |
Category: Physics | Chapter: Instrumentation and Methods of Experimental Physics | |
Keywords: metrology, laboratory research, dynamic deformation, ferromagnetism, ferromagnet, magnetoelastic converter, magnetodynamic stabilization, eddy current polarization |
Assessment of the greenhouse gases content in the atmosphere using a dynamic Fourier spectrometer
Authors: Budnikov A.A. | Published: 19.06.2023 |
Published in issue: #6(83)/2023 | |
DOI: DOI: 10.18698/2541-8009-2023-6-905 | |
Category: Physics | Chapter: Instrumentation and Methods of Experimental Physics | |
Keywords: infrared absorption spectra, carbon dioxide, methane, infrared spectrometry, dynamic Fourier spectrometer, spectral transmittance, integral concentration, volumetric concentration |
Application of Light Raman Spectroscopy for Quality Control of Pharmaceuticals Based on Acetylsalicylic Acid
Authors: Gylka R.A. , Gritsayeva  A.V.  | Published: 28.04.2023 |
Published in issue: #3(80)/2023 | |
DOI: DOI: 10.18698/2541-8009-2023-3-878 | |
Category: Physics | Chapter: Instrumentation and Methods of Experimental Physics | |
Keywords: aspirin, Raman spectrometer, spectroscopy, nondestructive technology, Raman light scattering, cross-correlation, spectrum, medications |
Image contrast enhancement as a result of the filtering mask's effect on its Fourier spectrum components
Authors: Bobova V.D., Titenko A.A. | Published: 29.12.2022 |
Published in issue: #12(77)/2022 | |
DOI: DOI: 10.18698/2541-8009-2022-12-847 | |
Category: Physics | Chapter: Instrumentation and Methods of Experimental Physics | |
Keywords: fourier optics, Fourier analysis, Fourier synthesis, image contrast enhancement, light field filtering, filtering mask, optical systems, spatial spectrum |
Determination of the sensitivity of a microbolometer camera as part of a fourier spectroradiometer
Authors: Ostrichenko A.A. | Published: 30.07.2019 |
Published in issue: #7(36)/2019 | |
DOI: DOI: 10.18698/2541-8009-2019-7-503 | |
Category: Physics | Chapter: Instrumentation and Methods of Experimental Physics | |
Keywords: spectral analysis, photodetector, infrared radiation, microbolometer camera, discrete signals, low-frequency filters, microbolometric camera sensitivity |
Phase shifter for active noise dampening system
Authors: Vanroye N.K. | Published: 19.04.2017 |
Published in issue: #3(8)/2017 | |
DOI: DOI: 10.18698/2541-8009-2017-3-81 | |
Category: Physics | Chapter: Instrumentation and Methods of Experimental Physics | |
Keywords: low-frequency acoustic noise, noise dampening, acoustic wave, antinoise, phase shifter, antiphase, active noise contro |
Gravitational field and practical determination of gravitational acceleration value on the Earth surface
Authors: Sukhorukova N.A. | Published: 14.02.2017 |
Published in issue: #4(4)/2016 | |
DOI: DOI: 10.18698/2541-8009-2016-4-30 | |
Category: Physics | Chapter: Instrumentation and Methods of Experimental Physics | |
Keywords: gravitational field, gravitational acceleration, measurement |