WCSE

The Propagation of Monochromatic Electromagnetic Radiation Inside of Luneburg Lens in Relative Coordinate Frame of Reference

Abstract— A mathematical model of the propagation of laser radiation inside Luneburg lens in relative coordinate frame of reference has been developed. The trajectory of the beam propagation inside the lens, as well as angles of incidence, refraction and reflection have been defined. In addition to this on the basis of the data received we plotted some charts with the help of which one could determine the amount of the aberration of the beam, operation region of the lens, deviation of the beam from the detector after its propagation in the lens. It was shown that the deviation of the beam in the plane of the registration on the ground does not exceed 200 meters.

Index Terms— Luneburg lens, gradient lenses, the dispersion equation, satellite reflector, angular deviation.

Gladyshev V. O., Tereshin A. A., Bazleva D. D.
Bauman Moscow State Technical University, RUSSIA
Yavorskiy A. V.
Open Joint-Stock Company “Research Institute of Precision Instruments”, RUSSIA

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Cite: Gladyshev V. O., Tereshin A. A., Yavorskiy A. V., Bazleva D. D., "The Propagation of Monochromatic Electromagnetic Radiation Inside of Luneburg Lens in Relative Coordinate Frame of Reference," 2015 The 5th International Workshop on Computer Science and Engineering-Information Processing and Control Engineering (WCSE 2015-IPCE), pp. 213-219, Moscow, Russia, April 15-17, 2015.