Abstract:
The phenomenon of reflection of light radiation from crystalline particles oriented in the atmosphere, as well as the physical laws and possible conditions contributing to its occurrence, are considered. A variant of registration of mirror layers using a panoramic optical station (AllSky system) is described.
Keywords:
specular reflection, crystalline particles, interference, diffraction, wave optics
Figures:
References:
- Curry J.A., Webster P.J. Thermodynamics of atmospheres and oceans // Academ. Press. 1999. V. 65. DOI: 10.1016/S0074-6142(99)80027-8.
- Platt C.M.R., Abshire N.L., McNice G.T. Some microphysical properties of an ice cloud from lidar observation of horizontally oriented crystals // J. Appl. Meteorol. Climatol. 1978. V. 17, N 8. P. 1220–1224.
- Volkovitskij O.A., Pavlova L.N., Petrushin A.G. Opticheskie svojstva kristallicheskih oblakov. L.: Gidrometeoizdat, 1984. 198 p.
- Marichev V.N., Galilejskij V.P., Kuz'menkov D.O., Morozov A.M. Eksperimental'nye nablyudeniya zerkal'nogo otrazheniya lazernogo izlucheniya ot orientirovannyh kristallicheskih chastits, sosredotochennyh v sloe atmosfery // Optika atmosf. i okeana. 2009. V. 22, N 12. P. 1145–1147; Marichev V.N., Galileyskii V.P., Kuz’menkov D.O., Morozov A.M. Experimental observation of the mirror reflection of laser radiation from oriented particles concentrated in the atmospheric layer // Atmos. Ocean. Opt. 2009. V. 23, N 2. P. 128–131.
- Lansberg G.S. Optika. M.: Nauka, 1979. 480 p.
- Libbricht K. The physics of snow crystals // Progress Phys. 2005. DOI: 10.1088-4886/68/4/RO3 – Sourse OAI.
- Galilejskij V.P., Morozov A.M. Panoramnyj fotometricheskij kompleks // Optika atmosf. i okeana. 1993. V. 6, N 9. P. 1131–1135.
- Ugolnikov O.S., Maslov I.A. Optical properties of the undisturbed mesosphere from wide-angle twilight sky polarimetry // Cosmic Res. 2013. V. 51, N 4. P. 235–240.
- Kassianov E., Long C.N., Christy J. Cloud-base-height estimation from paired ground-based hemispherical observations // J. Appl. Meteorol. 2005. V. 44. P. 1221–1233.
- Kokarev D.V., Galilejskij V.P., Elizarov A.I., Morozov A.M. Ustrojstvo nablyudeniya opticheskogo sostoyaniya neba v predelah vidimoj polusfery // Patent na poleznuyu model' N 191582 ot 13.08.2019. Pravoobladatel': Federal'noe gosudarstvennoe byudzhetnoe uchrezhdenie nauki Institut optiki atmosfery im. V.E. Zueva Sibirskogo otdeleniya Rossijskoj akademii nauk (IOA SO RAN) (RU).
- Galileyskii V.P., Elizarov A.I., Kokarev D.V., Matvienko G.G., Morozov A.M. Software and hardware system for monitoring and control of the optical-physical state of the atmosphere: Part 1: Panoramic optical station // Proc. SPIE. 2021. P. 119168K. DOI 10.1117/12.2603231.
- Galileyskii V.P., Elizarov A.I., Kokarev D.V., Matvienko G.G., Morozov A.M. Software and hardware system for monitoring and control of the optical-physical state of the atmosphere: Part 2: Methods and algorithms for data processing // Proc. SPIE. 2021. P. 119168L. DOI 10.1117/12.2603233.
- Morozov A.M., Galilejskij V.P., Elizarov A.I., Kokarev D.V. Nablyudenie zerkal'nogo otrazheniya osveshchennoj podstilayushchej poverhnosti oblachnym sloem iz ledyanyh plastinok // Optika atmosf. i okeana. 2017. V. 30, N 1. P. 88–92.