70 results on '"Borovoi, Anatoli G."'
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2. Light scattering by ice crystals of cirrus clouds: comparison of the physical optics methods
3. Beam-splitting code for light scattering by ice crystal particles within geometric-optics approximation
4. Scattering matrices for horizontally oriented ice crystals
5. Light scattering matrix for large irregularly shaped ice crystals averaged over an ensemble of particles.
6. Light scattering by large particles with the arbitrary shape within the geometrical optics approximation.
7. Calculation of light scattering matrix on particles of dust aerosol.
8. Absorption accounting in the light scattering problem for arbitrarily shaped atmospheric ice particles within physical optics approximation method.
9. Microwave scattering matrices for ice crystals of cirrus clouds calculated with the discrete dipole approximation (DDA).
10. Combined use of lidar and radar for studying microphysical properties of cirrus clouds.
11. Calculation of light scattering matrix for quasi-horizontally oriented atmospheric ice crystals within the geometrical optics approximation.
12. Аpplication of the discrete dipole method and the approximation of physical optics to the problem of light scattering by atmospheric ice crystals of cirrous clouds for remote sensing problems.
13. Data bank of the optical properties of ice particles of cirrus clouds for interpretation of lidar data of Russian Orbital Station.
14. Negative polarization for the light scattering by irregular shaped particles.
15. Verification of the physical optics approximation for the calculation of the light scattering matrixes on polyhedral Platonic bodies.
16. Scattering matrixes of hexagonal ice crystals of cirrus clouds calculated for problems of radiation balance.
17. Appearance of the corner reflection effect in cirrus clouds for off-zenith lidar profiling.
18. Numerical study of extinction matrix in cirrus clouds.
19. Backscattering matrices calculation for atmospheric ice crystals within the physical optics approximation with absorption effect.
20. Backscattering by hexagonal ice crystals with a large distortion angles.
21. Calculation of cirrus clouds backscattering for lidar studies within the physical optics approximation.
22. Development of the algorithm for light scattering by concave ice crystals of cirrus clouds.
23. Main types of optical beams giving predominant contributions to the light backscatter for the irregular hexagonal columns.
24. POWER LAWS FOR THE BACKSCATTERING MATRICES IN THE CASE OF LIDAR SENSING OF CIRRUS CLOUDS.
25. Problem of light scattering by atmospheric ice crystals.
26. Simulation of a scanning lidar signal for the case of a mixture of quasi-horizontally oriented hexagonal particles and randomly oriented particles of arbitrary shape.
27. Solution of the light scattering problem by small atmospheric ice crystals by discrete dipole approximation and comparison with the physical optics approximation.
28. Solution of the problem of electromagnetic scattering by ice particles of cirrus clouds for 0.355 μm lidar and 94 GHz radar of satellite EarthCARE.
29. Negative polarization phenomenon for large randomly oriented particles of irregular shapes.
30. Calculation of light backscattering matrix by the DDA method for arbitrary particles of cirrus clouds for lidar remote sensing.
31. Light scattering by large particles: physical optics and the shadow-forming field.
32. Application of polarization lidars to study the orientation of crystalline particles in ice clouds.
33. Multiple scattering of short waves by uncorrelated and correlated scatterers.
34. Development of an optical model for cirrus clouds.
35. Extinction-to-backscatter ratio calculated for ice crystal particles.
36. Scattering matrices for ice crystal particles with preferred orientations.
37. Monte Carlo simulation of radiation transfer in optically anisotropic clouds.
38. Polarized light backscatter by hexagonal ice crystal particles.
39. Scattering (Mueller) matrices for ice crystal particles of cirrus clouds.
40. Light scattering by ice crystals of cirrus clouds.
41. Mueller matrix for randomly oriented ice crystal particles.
42. Mueller matrices for randomly oriented ice crystal particles in the geometric optics approximation.
43. How precisely must an equation describe the return signal of a spaceborne lidar system to allow for the retrieval of cloud parameters?
44. Light scattering by ice crystals of cirrus clouds: Jones matrix.
45. Backscattering cross-section of hexagonal ice crystals: I.
46. Backscattering Mueller matrix of hexagonal ice crystals: II.
47. Light scattering matrix for atmospheric ice aggregates of cirrus clouds within geometrical optics approximation.
48. Light scattering by atmospheric ice crystals of regular and arbitrary shape within the framework of the physical optics method for the problems of interpreting data from ground-based and space-based lidars.
49. Light scattering on atmospheric ice crystals of irregular shape.
50. Calculation of the lidar signal by the DDA method applied to the data of satellite remote sensing of cirrus clouds for climate change detection.
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