Title :
Dependence of nonlinear resonator parametrical oscillations amplitude from rating amplitude and frequency
Author :
Cherckesova, L.V.
Author_Institution :
South Fed. Univ. SFU, Rostov-Don, Russia
Abstract :
One of research objects within theory of nonlinear oscillations is the laws of parametrical resonance in higher zones of oscillations instability. Perspective, but yet poorly studied direction in creation of radioelectronic means of the future, is the design of radioelectronic devices on the basis of resonant schemes on higher harmonics in higher zones of instability of oscillations. It is established that nonlinear parametrical zone system can generate the higher harmonics at enough small attenuation. The system attenuation less, the more number of zones of excitation it is, and that raised oscillations have bigger amplitude. The more strongly non-linearity, the is more quantity of zones of excitation and the richer choice of harmonics in which the designing devices on the basis of nonlinear parametrical zone systems can function.
Keywords :
integrated optics; optical modulation; optical parametric oscillators; optical resonators; attenuation; nonlinear parametrical zone systems; nonlinear resonator; oscillations instability; parametrical oscillations amplitude; parametrical resonance; radioelectronic devices; rating amplitude; rating frequency; Attenuation; Educational institutions; Harmonic analysis; Magnetic resonance; Magnetization; Mathematical model; Oscillators; Nonlinear resonator; amplitude-frequency characteristics; approximation by hyperbolic sine; attenuation of resonant contour; excitation zones; higher harmonics; numbers of Fourier; parametrical resonance; rating signal; resonant contour; the higher zones of instability of oscillations;
Conference_Titel :
Control and Communications (SIBCON), 2011 International Siberian Conference on
Conference_Location :
Krasnoyarsk
Print_ISBN :
978-1-4577-1069-8
DOI :
10.1109/SIBCON.2011.6072637
